| Hits from PDB |
Structure Title |
EC number |
| 102L | HOW AMINO-ACID INSERTIONS ARE ALLOWED IN AN ALPHA-HELIX OF T4 LYSOZYME | 3.2.1.17 |
| 103L | HOW AMINO-ACID INSERTIONS ARE ALLOWED IN AN ALPHA-HELIX OF T4 LYSOZYME | 3.2.1.17 |
| 104L | HOW AMINO-ACID INSERTIONS ARE ALLOWED IN AN ALPHA-HELIX OF T4 LYSOZYME | 3.2.1.17 |
| 107L | STRUCTURAL BASIS OF ALPHA-HELIX PROPENSITY AT TWO SITES IN T4 LYSOZYME | 3.2.1.17 |
| 108L | STRUCTURAL BASIS OF ALPHA-HELIX PROPENSITY AT TWO SITES IN T4 LYSOZYME | 3.2.1.17 |
| 109L | STRUCTURAL BASIS OF ALPHA-HELIX PROPENSITY AT TWO SITES IN T4 LYSOZYME | 3.2.1.17 |
| 110L | STRUCTURAL BASIS OF ALPHA-HELIX PROPENSITY AT TWO SITES IN T4 LYSOZYME | 3.2.1.17 |
| 111L | STRUCTURAL BASIS OF ALPHA-HELIX PROPENSITY AT TWO SITES IN T4 LYSOZYME | 3.2.1.17 |
| 112L | STRUCTURAL BASIS OF ALPHA-HELIX PROPENSITY AT TWO SITES IN T4 LYSOZYME | 3.2.1.17 |
| 113L | STRUCTURAL BASIS OF ALPHA-HELIX PROPENSITY AT TWO SITES IN T4 LYSOZYME | 3.2.1.17 |
| 114L | STRUCTURAL BASIS OF ALPHA-HELIX PROPENSITY AT TWO SITES IN T4 LYSOZYME | 3.2.1.17 |
| 115L | STRUCTURAL BASIS OF ALPHA-HELIX PROPENSITY AT TWO SITES IN T4 LYSOZYME | 3.2.1.17 |
| 117E | THE R78K AND D117E ACTIVE SITE VARIANTS OF SACCHAROMYCES CEREVISIAE SOLUBLE INORGANIC PYROPHOSPHATASE: STRUCTURAL STUDIES AND MECHANISTIC IMPLICATIONS | 3.6.1.1 |
| 118L | THE ENERGETIC COST AND THE STRUCTURAL CONSEQUENCES OF BURYING A HYDROXYL GROUP WITHIN THE CORE OF A PROTEIN DETERMINED FROM ALA TO SER AND VAL TO THR SUBSTITUTIONS IN T4 LYSOZYME | 3.2.1.17 |
| 119L | THE ENERGETIC COST AND THE STRUCTURAL CONSEQUENCES OF BURYING A HYDROXYL GROUP WITHIN THE CORE OF A PROTEIN DETERMINED FROM ALA TO SER AND VAL TO THR SUBSTITUTIONS IN T4 LYSOZYME | 3.2.1.17 |
| 11BA | BINDING OF A SUBSTRATE ANALOGUE TO A DOMAIN SWAPPING PROTEIN IN THE COMPLEX OF BOVINE SEMINAL RIBONUCLEASE WITH URIDYLYL-2',5'-ADENOSINE | 3.1.27.5 4.6.1.18 |
| 11BG | A POTENTIAL ALLOSTERIC SUBSITE GENERATED BY DOMAIN SWAPPING IN BOVINE SEMINAL RIBONUCLEASE | 3.1.27.5 4.6.1.18 |
| 120L | THE ENERGETIC COST AND THE STRUCTURAL CONSEQUENCES OF BURYING A HYDROXYL GROUP WITHIN THE CORE OF A PROTEIN DETERMINED FROM ALA TO SER AND VAL TO THR SUBSTITUTIONS IN T4 LYSOZYME | 3.2.1.17 |
| 121P | STRUKTUR UND GUANOSINTRIPHOSPHAT-HYDROLYSEMECHANISMUS DES C-TERMINAL VERKUERZTEN MENSCHLICHEN KREBSPROTEINS P21-H-RAS | 3.6.5.2 |
| 122L | THE ENERGETIC COST AND THE STRUCTURAL CONSEQUENCES OF BURYING A HYDROXYL GROUP WITHIN THE CORE OF A PROTEIN DETERMINED FROM ALA TO SER AND VAL TO THR SUBSTITUTIONS IN T4 LYSOZYME | 3.2.1.17 |
| 123L | THE ENERGETIC COST AND THE STRUCTURAL CONSEQUENCES OF BURYING A HYDROXYL GROUP WITHIN THE CORE OF A PROTEIN DETERMINED FROM ALA TO SER AND VAL TO THR SUBSTITUTIONS IN T4 LYSOZYME | 3.2.1.17 |
| 125L | THE ENERGETIC COST AND THE STRUCTURAL CONSEQUENCES OF BURYING A HYDROXYL GROUP WITHIN THE CORE OF A PROTEIN DETERMINED FROM ALA TO SER AND VAL TO THR SUBSTITUTIONS IN T4 LYSOZYME | 3.2.1.17 |
| 126L | THE ENERGETIC COST AND THE STRUCTURAL CONSEQUENCES OF BURYING A HYDROXYL GROUP WITHIN THE CORE OF A PROTEIN DETERMINED FROM ALA TO SER AND VAL TO THR SUBSTITUTIONS IN T4 LYSOZYME | 3.2.1.17 |
| 127L | THE ENERGETIC COST AND THE STRUCTURAL CONSEQUENCES OF BURYING A HYDROXYL GROUP WITHIN THE CORE OF A PROTEIN DETERMINED FROM ALA TO SER AND VAL TO THR SUBSTITUTIONS IN T4 LYSOZYME | 3.2.1.17 |
| 128L | THE ENERGETIC COST AND THE STRUCTURAL CONSEQUENCES OF BURYING A HYDROXYL GROUP WITHIN THE CORE OF A PROTEIN DETERMINED FROM ALA TO SER AND VAL TO THR SUBSTITUTIONS IN T4 LYSOZYME | 3.2.1.17 |
| 129L | STRUCTURES OF RANDOMLY GENERATED MUTANTS OF T4 LYSOZYME SHOW THAT PROTEIN STABILITY CAN BE ENHANCED BY RELAXATION OF STRAIN AND BY IMPROVED HYDROGEN BONDING VIA BOUND SOLVENT | 3.2.1.17 |
| 130L | STRUCTURES OF RANDOMLY GENERATED MUTANTS OF T4 LYSOZYME SHOW THAT PROTEIN STABILITY CAN BE ENHANCED BY RELAXATION OF STRAIN AND BY IMPROVED HYDROGEN BONDING VIA BOUND SOLVENT | 3.2.1.17 |
| 131L | STRUCTURES OF RANDOMLY GENERATED MUTANTS OF T4 LYSOZYME SHOW THAT PROTEIN STABILITY CAN BE ENHANCED BY RELAXATION OF STRAIN AND BY IMPROVED HYDROGEN BONDING VIA BOUND SOLVENT | 3.2.1.17 |
| 132L | STRUCTURAL CONSEQUENCES OF REDUCTIVE METHYLATION OF LYSINE RESIDUES IN HEN EGG WHITE LYSOZYME: AN X-RAY ANALYSIS AT 1.8 ANGSTROMS RESOLUTION | 3.2.1.17 |
| 133L | ROLE OF ARG 115 IN THE CATALYTIC ACTION OF HUMAN LYSOZYME. X-RAY STRUCTURE OF HIS 115 AND GLU 115 MUTANTS | 3.2.1.17 |
| 134L | ROLE OF ARG 115 IN THE CATALYTIC ACTION OF HUMAN LYSOZYME. X-RAY STRUCTURE OF HIS 115 AND GLU 115 MUTANTS | 3.2.1.17 |
| 135L | X-RAY STRUCTURE OF MONOCLINIC TURKEY EGG LYSOZYME AT 1.3 ANGSTROMS RESOLUTION | 3.2.1.17 |
| 137L | STRUCTURAL BASIS OF AMINO ACID ALPHA HELIX PROPENSITY | 3.2.1.17 |
| 138L | RAPID CRYSTALLIZATION OF T4 LYSOZYME BY INTERMOLECULAR DISULFIDE CROSSLINKING | 3.2.1.17 |
| 139L | RAPID CRYSTALLIZATION OF T4 LYSOZYME BY INTERMOLECULAR DISULFIDE CROSSLINKING | 3.2.1.17 |
| 140L | ROLE OF BACKBONE FLEXIBILITY IN THE ACCOMMODATION OF VARIANTS THAT REPACK THE CORE OF T4 LYSOZYME | 3.2.1.17 |
| 141L | ROLE OF BACKBONE FLEXIBILITY IN THE ACCOMMODATION OF VARIANTS THAT REPACK THE CORE OF T4 LYSOZYME | 3.2.1.17 |
| 142L | ROLE OF BACKBONE FLEXIBILITY IN THE ACCOMMODATION OF VARIANTS THAT REPACK THE CORE OF T4 LYSOZYME | 3.2.1.17 |
| 143L | ROLE OF BACKBONE FLEXIBILITY IN THE ACCOMMODATION OF VARIANTS THAT REPACK THE CORE OF T4 LYSOZYME | 3.2.1.17 |
| 144L | ROLE OF BACKBONE FLEXIBILITY IN THE ACCOMMODATION OF VARIANTS THAT REPACK THE CORE OF T4 LYSOZYME | 3.2.1.17 |
| 145L | ROLE OF BACKBONE FLEXIBILITY IN THE ACCOMMODATION OF VARIANTS THAT REPACK THE CORE OF T4 LYSOZYME | 3.2.1.17 |
| 146L | ROLE OF BACKBONE FLEXIBILITY IN THE ACCOMMODATION OF VARIANTS THAT REPACK THE CORE OF T4 LYSOZYME | 3.2.1.17 |
| 147L | ROLE OF BACKBONE FLEXIBILITY IN THE ACCOMMODATION OF VARIANTS THAT REPACK THE CORE OF T4 LYSOZYME | 3.2.1.17 |
| 148L | A COVALENT ENZYME-SUBSTRATE INTERMEDIATE WITH SACCHARIDE DISTORTION IN A MUTANT T4 LYSOZYME | 3.2.1.17 |
| 149L | CONSERVATION OF SOLVENT-BINDING SITES IN 10 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 150L | CONSERVATION OF SOLVENT-BINDING SITES IN 10 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 151L | CONSERVATION OF SOLVENT-BINDING SITES IN 10 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 152L | CONSERVATION OF SOLVENT-BINDING SITES IN 10 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 153L | THE REFINED STRUCTURES OF GOOSE LYSOZYME AND ITS COMPLEX WITH A BOUND TRISACCHARIDE SHOW THAT THE GOOSE-TYPE LYSOZYMES LACK A CATALYTIC ASPARTATE" | 3.2.1.17 |
| 154L | THE REFINED STRUCTURES OF GOOSE LYSOZYME AND ITS COMPLEX WITH A BOUND TRISACCHARIDE SHOW THAT THE GOOSE-TYPE LYSOZYMES LACK A CATALYTIC ASPARTATE" | 3.2.1.17 |
| 155L | CONTROL OF ENZYME ACTIVITY BY AN ENGINEERED DISULFIDE BOND | 3.2.1.17 |
| 156L | CONTROL OF ENZYME ACTIVITY BY AN ENGINEERED DISULFIDE BOND | 3.2.1.17 |
| 157L | CONTROL OF ENZYME ACTIVITY BY AN ENGINEERED DISULFIDE BOND | 3.2.1.17 |
| 158L | CONTROL OF ENZYME ACTIVITY BY AN ENGINEERED DISULFIDE BOND | 3.2.1.17 |
| 159L | CONTROL OF ENZYME ACTIVITY BY AN ENGINEERED DISULFIDE BOND | 3.2.1.17 |
| 160L | CONTROL OF ENZYME ACTIVITY BY AN ENGINEERED DISULFIDE BOND | 3.2.1.17 |
| 161L | CONTROL OF ENZYME ACTIVITY BY AN ENGINEERED DISULFIDE BOND | 3.2.1.17 |
| 162L | CONTROL OF ENZYME ACTIVITY BY AN ENGINEERED DISULFIDE BOND | 3.2.1.17 |
| 163L | CONTROL OF ENZYME ACTIVITY BY AN ENGINEERED DISULFIDE BOND | 3.2.1.17 |
| 164L | CONTROL OF ENZYME ACTIVITY BY AN ENGINEERED DISULFIDE BOND | 3.2.1.17 |
| 165L | CONTROL OF ENZYME ACTIVITY BY AN ENGINEERED DISULFIDE BOND | 3.2.1.17 |
| 166L | CONTROL OF ENZYME ACTIVITY BY AN ENGINEERED DISULFIDE BOND | 3.2.1.17 |
| 167L | PROTEIN FLEXIBILITY AND ADAPTABILITY SEEN IN 25 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 168L | PROTEIN FLEXIBILITY AND ADAPTABILITY SEEN IN 25 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 169L | PROTEIN FLEXIBILITY AND ADAPTABILITY SEEN IN 25 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 170L | PROTEIN FLEXIBILITY AND ADAPTABILITY SEEN IN 25 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 171L | PROTEIN FLEXIBILITY AND ADAPTABILITY SEEN IN 25 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 172L | PROTEIN FLEXIBILITY AND ADAPTABILITY SEEN IN 25 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 173L | PROTEIN FLEXIBILITY AND ADAPTABILITY SEEN IN 25 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 174L | PROTEIN FLEXIBILITY AND ADAPTABILITY SEEN IN 25 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 175L | PROTEIN FLEXIBILITY AND ADAPTABILITY SEEN IN 25 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 176L | PROTEIN FLEXIBILITY AND ADAPTABILITY SEEN IN 25 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 177L | PROTEIN FLEXIBILITY AND ADAPTABILITY SEEN IN 25 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 178L | PROTEIN FLEXIBILITY AND ADAPTABILITY SEEN IN 25 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 180L | PROTEIN FLEXIBILITY AND ADAPTABILITY SEEN IN 25 CRYSTAL FORMS OF T4 LYSOZYME | 3.2.1.17 |
| 181L | SPECIFICITY OF LIGAND BINDING IN A BURIED NON-POLAR CAVITY OF T4 LYSOZYME: LINKAGE OF DYNAMICS AND STRUCTURAL PLASTICITY | 3.2.1.17 |
| 182L | SPECIFICITY OF LIGAND BINDING IN A BURIED NON-POLAR CAVITY OF T4 LYSOZYME: LINKAGE OF DYNAMICS AND STRUCTURAL PLASTICITY | 3.2.1.17 |
| 183L | SPECIFICITY OF LIGAND BINDING IN A BURIED NON-POLAR CAVITY OF T4 LYSOZYME: LINKAGE OF DYNAMICS AND STRUCTURAL PLASTICITY | 3.2.1.17 |
| 184L | SPECIFICITY OF LIGAND BINDING IN A BURIED NON-POLAR CAVITY OF T4 LYSOZYME: LINKAGE OF DYNAMICS AND STRUCTURAL PLASTICITY | 3.2.1.17 |
| 185L | SPECIFICITY OF LIGAND BINDING IN A BURIED NON-POLAR CAVITY OF T4 LYSOZYME: LINKAGE OF DYNAMICS AND STRUCTURAL PLASTICITY | 3.2.1.17 |
| 186L | SPECIFICITY OF LIGAND BINDING IN A BURIED NON-POLAR CAVITY OF T4 LYSOZYME: LINKAGE OF DYNAMICS AND STRUCTURAL PLASTICITY | 3.2.1.17 |
| 187L | SPECIFICITY OF LIGAND BINDING IN A BURIED NON-POLAR CAVITY OF T4 LYSOZYME: LINKAGE OF DYNAMICS AND STRUCTURAL PLASTICITY | 3.2.1.17 |
| 188L | SPECIFICITY OF LIGAND BINDING IN A BURIED NON-POLAR CAVITY OF T4 LYSOZYME: LINKAGE OF DYNAMICS AND STRUCTURAL PLASTICITY | 3.2.1.17 |
| 189L | ENHANCEMENT OF PROTEIN STABILITY BY THE COMBINATION OF POINT MUTATIONS IN T4 LYSOZYME IS ADDITIVE | 3.2.1.17 |
| 190L | A HELIX INITIATION SIGNAL IN T4 LYSOZYME IDENTIFIED BY POLYALANINE MUTAGENESIS | 3.2.1.17 |
| 191L | A HELIX INITIATION SIGNAL IN T4 LYSOZYME IDENTIFIED BY POLYALANINE MUTAGENESIS | 3.2.1.17 |
| 192L | A HELIX INITIATION SIGNAL IN T4 LYSOZYME IDENTIFIED BY POLYALANINE MUTAGENESIS | 3.2.1.17 |
| 193L | THE 1.33 A STRUCTURE OF TETRAGONAL HEN EGG WHITE LYSOZYME | 3.2.1.17 |
| 194L | THE 1.40 A STRUCTURE OF SPACEHAB-01 HEN EGG WHITE LYSOZYME | 3.2.1.17 |
| 195L | THERMODYNAMIC AND STRUCTURAL COMPENSATION IN SIZE-SWITCH" CORE-REPACKING VARIANTS OF T4 LYSOZYME" | 3.2.1.17 |
| 196L | THERMODYNAMIC AND STRUCTURAL COMPENSATION IN SIZE-SWITCH" CORE-REPACKING VARIANTS OF T4 LYSOZYME" | 3.2.1.17 |
| 197L | THERMODYNAMIC AND STRUCTURAL COMPENSATION IN SIZE-SWITCH" CORE-REPACKING VARIANTS OF T4 LYSOZYME" | 3.2.1.17 |
| 198L | THERMODYNAMIC AND STRUCTURAL COMPENSATION IN SIZE-SWITCH" CORE-REPACKING VARIANTS OF T4 LYSOZYME" | 3.2.1.17 |
| 199L | THERMODYNAMIC AND STRUCTURAL COMPENSATION IN SIZE-SWITCH" CORE-REPACKING VARIANTS OF T4 LYSOZYME" | 3.2.1.17 |
| 1A0H | THE X-RAY CRYSTAL STRUCTURE OF PPACK-MEIZOTHROMBIN DESF1: KRINGLE/THROMBIN AND CARBOHYDRATE/KRINGLE/THROMBIN INTERACTIONS AND LOCATION OF THE LINKER CHAIN | 3.4.21.5 |
| 1A0J | CRYSTAL STRUCTURE OF A NON-PSYCHROPHILIC TRYPSIN FROM A COLD-ADAPTED FISH SPECIES. | 3.4.21.4 |
| 1A0L | HUMAN BETA-TRYPTASE: A RING-LIKE TETRAMER WITH ACTIVE SITES FACING A CENTRAL PORE | 3.4.21.59 |
| 1A16 | AMINOPEPTIDASE P FROM E. COLI WITH THE INHIBITOR PRO-LEU | 3.4.11.9 |
| 1A17 | TETRATRICOPEPTIDE REPEATS OF PROTEIN PHOSPHATASE 5 | 3.1.3.16 |
| 1A1Q | HEPATITIS C VIRUS NS3 PROTEINASE | 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 2.7.7.48 |
| 1A1R | HCV NS3 PROTEASE DOMAIN:NS4A PEPTIDE COMPLEX | 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 2.7.7.48 |
| 1A1V | HEPATITIS C VIRUS NS3 HELICASE DOMAIN COMPLEXED WITH SINGLE STRANDED SDNA | 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 2.7.7.48 |
| 1A2A | AGKISTROTOXIN, A PHOSPHOLIPASE A2-TYPE PRESYNAPTIC NEUROTOXIN FROM AGKISTRODON HALYS PALLAS | 3.1.1.4 |
| 1A2B | HUMAN RHOA COMPLEXED WITH GTP ANALOGUE | 3.6.5.2 |
| 1A2C | STRUCTURE OF THROMBIN INHIBITED BY AERUGINOSIN298-A FROM A BLUE-GREEN ALGA | 3.4.21.5 |
| 1A2O | STRUCTURAL BASIS FOR METHYLESTERASE CHEB REGULATION BY A PHOSPHORYLATION-ACTIVATED DOMAIN | 3.1.1.61 3.5.1.44 |
| 1A2P | BARNASE WILDTYPE STRUCTURE AT 1.5 ANGSTROMS RESOLUTION | 3.1.27 |
| 1A2Q | SUBTILISIN BPN' MUTANT 7186 | 3.4.21.62 |
| 1A2T | STAPHYLOCOCCAL NUCLEASE, B-MERCAPTOETHANOL DISULFIDE TO V23C VARIANT | 3.1.31.1 |
| 1A2U | STAPHYLOCOCCAL NUCLEASE, V23C VARIANT, COMPLEX WITH 1-N-BUTANE THIOL AND 3',5'-THYMIDINE DIPHOSPHATE | 3.1.31.1 |
| 1A2W | CRYSTAL STRUCTURE OF A 3D DOMAIN-SWAPPED DIMER OF BOVINE PANCREATIC RIBONUCLEASE A | 3.1.27.5 4.6.1.18 |
| 1A2Z | PYRROLIDONE CARBOXYL PEPTIDASE FROM THERMOCOCCUS LITORALIS | 3.4.19.3 |
| 1A30 | HIV-1 PROTEASE COMPLEXED WITH A TRIPEPTIDE INHIBITOR | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1A39 | HUMICOLA INSOLENS ENDOCELLULASE EGI S37W, P39W DOUBLE-MUTANT | 3.2.1.4 |
| 1A3B | COMPLEX OF HUMAN ALPHA-THROMBIN WITH THE BIFUNCTIONAL BORONATE INHIBITOR BOROLOG1 | 3.4.21.5 |
| 1A3D | PHOSPHOLIPASE A2 (PLA2) FROM NAJA NAJA VENOM | 3.1.1.4 |
| 1A3E | COMPLEX OF HUMAN ALPHA-THROMBIN WITH THE BIFUNCTIONAL BORONATE INHIBITOR BOROLOG2 | 3.4.21.5 |
| 1A3F | PHOSPHOLIPASE A2 (PLA2) FROM NAJA NAJA VENOM | 3.1.1.4 |
| 1A3H | ENDOGLUCANASE CEL5A FROM BACILLUS AGARADHERANS AT 1.6A RESOLUTION | 3.2.1.4 |
| 1A3T | STAPHYLOCOCCAL NUCLEASE, V23C VARIANT, COMPLEX WITH 2-FLUOROETHANE THIOL AND 3',5'-THYMIDINE DIPHOSPHATE | 3.1.31.1 |
| 1A3U | STAPHYLOCOCCAL NUCLEASE, CYCLOHEXANE THIOL DISULFIDE TO V23C VARIANT | 3.1.31.1 |
| 1A3V | STAPHYLOCOCCAL NUCLEASE, CYCLOPENTANE THIOL DISULFIDE TO V23C VARIANT | 3.1.31.1 |
| 1A43 | STRUCTURE OF THE HIV-1 CAPSID PROTEIN DIMERIZATION DOMAIN AT 2.6A RESOLUTION | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1A46 | THROMBIN COMPLEXED WITH HIRUGEN AND A BETA-STRAND MIMETIC INHIBITOR | 3.4.21.5 |
| 1A4G | INFLUENZA VIRUS B/BEIJING/1/87 NEURAMINIDASE COMPLEXED WITH ZANAMIVIR | 3.2.1.18 |
| 1A4I | HUMAN TETRAHYDROFOLATE DEHYDROGENASE / CYCLOHYDROLASE | 1.5.1.5 3.5.4.9 6.3.4.3 |
| 1A4L | ADA STRUCTURE COMPLEXED WITH DEOXYCOFORMYCIN AT PH 7.0 | 3.5.4.4 |
| 1A4M | ADA STRUCTURE COMPLEXED WITH PURINE RIBOSIDE AT PH 7.0 | 3.5.4.4 |
| 1A4Q | INFLUENZA VIRUS B/BEIJING/1/87 NEURAMINIDASE COMPLEXED WITH DIHYDROPYRAN-PHENETHYL-PROPYL-CARBOXAMIDE | 3.2.1.18 |
| 1A4R | G12V MUTANT OF HUMAN PLACENTAL CDC42 GTPASE IN THE GDP FORM | 3.6.5.2 |
| 1A4W | CRYSTAL STRUCTURES OF THROMBIN WITH THIAZOLE-CONTAINING INHIBITORS: PROBES OF THE S1' BINDING SITE | 3.4.21.5 |
| 1A5G | HUMAN THROMBIN COMPLEXED WITH NOVEL SYNTHETIC PEPTIDE MIMETIC INHIBITOR AND HIRUGEN | 3.4.21.5 |
| 1A5H | CATALYTIC DOMAIN OF HUMAN TWO-CHAIN TISSUE PLASMINOGEN ACTIVATOR COMPLEX OF A BIS-BENZAMIDINE | 3.4.21.68 |
| 1A5I | CATALYTIC DOMAIN OF VAMPIRE BAT (DESMODUS ROTUNDUS) SALIVA PLASMINOGEN ACTIVATOR IN COMPLEX WITH EGR-CMK (GLU-GLY-ARG CHLOROMETHYL KETONE) | 3.4.21.68 |
| 1A5K | K217E VARIANT OF KLEBSIELLA AEROGENES UREASE | 3.5.1.5 |
| 1A5L | K217C VARIANT OF KLEBSIELLA AEROGENES UREASE | 3.5.1.5 |
| 1A5M | K217A VARIANT OF KLEBSIELLA AEROGENES UREASE | 3.5.1.5 |
| 1A5N | K217A VARIANT OF KLEBSIELLA AEROGENES UREASE, CHEMICALLY RESCUED BY FORMATE AND NICKEL | 3.5.1.5 |
| 1A5O | K217C VARIANT OF KLEBSIELLA AEROGENES UREASE, CHEMICALLY RESCUED BY FORMATE AND NICKEL | 3.5.1.5 |
| 1A5P | C[40,95]A VARIANT OF BOVINE PANCREATIC RIBONUCLEASE A | 3.1.27.5 4.6.1.18 |
| 1A5Q | P93A VARIANT OF BOVINE PANCREATIC RIBONUCLEASE A | 3.1.27.5 4.6.1.18 |
| 1A5V | ASV INTEGRASE CORE DOMAIN WITH HIV-1 INTEGRASE INHIBITOR Y3 AND MN CATION | 2.7.7.49 3.4.23 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1A5W | ASV INTEGRASE CORE DOMAIN WITH HIV-1 INTEGRASE INHIBITOR Y3 | 2.7.7.49 3.4.23 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1A5X | ASV INTEGRASE CORE DOMAIN WITH HIV-1 INTEGRASE INHIBITOR Y3 | 2.7.7.49 3.4.23 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1A5Y | PROTEIN TYROSINE PHOSPHATASE 1B CYSTEINYL-PHOSPHATE INTERMEDIATE | 3.1.3.48 |
| 1A61 | THROMBIN COMPLEXED WITH A BETA-MIMETIC THIAZOLE-CONTAINING INHIBITOR | 3.4.21.5 |
| 1A62 | CRYSTAL STRUCTURE OF THE RNA-BINDING DOMAIN OF THE TRANSCRIPTIONAL TERMINATOR PROTEIN RHO | 3.6.4 |
| 1A63 | THE NMR STRUCTURE OF THE RNA BINDING DOMAIN OF E.COLI RHO FACTOR SUGGESTS POSSIBLE RNA-PROTEIN INTERACTIONS, 10 STRUCTURES | 3.6.4 |
| 1A6F | RNASE P PROTEIN FROM BACILLUS SUBTILIS | 3.1.26.5 |
| 1A6Q | CRYSTAL STRUCTURE OF THE PROTEIN SERINE/THREONINE PHOSPHATASE 2C AT 2 A RESOLUTION | 3.1.3.16 |
| 1A6R | GAL6 (YEAST BLEOMYCIN HYDROLASE) MUTANT C73A | 3.4.22 3.4.22.40 |
| 1A6S | M-DOMAIN FROM GAG POLYPROTEIN OF ROUS SARCOMA VIRUS, NMR, 20 STRUCTURES | 3.4.23 |
| 1A73 | INTRON-ENCODED ENDONUCLEASE I-PPOI COMPLEXED WITH DNA | 3.1 |
| 1A74 | I-PPOL HOMING ENDONUCLEASE/DNA COMPLEX | 3.1 |
| 1A76 | FLAP ENDONUCLEASE-1 FROM METHANOCOCCUS JANNASCHII | 3.1 |
| 1A77 | FLAP ENDONUCLEASE-1 FROM METHANOCOCCUS JANNASCHII | 3.1 |
| 1A7A | STRUCTURE OF HUMAN PLACENTAL S-ADENOSYLHOMOCYSTEINE HYDROLASE: DETERMINATION OF A 30 SELENIUM ATOM SUBSTRUCTURE FROM DATA AT A SINGLE WAVELENGTH | 3.3.1.1 |
| 1A7T | METALLO-BETA-LACTAMASE WITH MES | 3.5.2.6 |
| 1A85 | MMP8 WITH MALONIC AND ASPARAGINE BASED INHIBITOR | 3.4.24.34 |
| 1A86 | MMP8 WITH MALONIC AND ASPARTIC ACID BASED INHIBITOR | 3.4.24.34 |
| 1A8D | TETANUS TOXIN C FRAGMENT | 3.4.24.68 |
| 1A8G | HIV-1 PROTEASE IN COMPLEX WITH SDZ283-910 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1A8K | CRYSTALLOGRAPHIC ANALYSIS OF HUMAN IMMUNODEFICIENCY VIRUS 1 PROTEASE WITH AN ANALOG OF THE CONSERVED CA-P2 SUBSTRATE: INTERACTIONS WITH FREQUENTLY OCCURRING GLUTAMIC ACID RESIDUE AT P2' POSITION OF SUBSTRATES | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1A8O | HIV CAPSID C-TERMINAL DOMAIN | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1A8R | GTP CYCLOHYDROLASE I (H112S MUTANT) IN COMPLEX WITH GTP | 3.5.4.16 |
| 1A8T | METALLO-BETA-LACTAMASE IN COMPLEX WITH L-159,061 | 3.5.2.6 |
| 1A8V | STRUCTURE OF THE RNA-BINDING DOMAIN OF THE RHO TRANSCRIPTION TERMINATOR | 3.6.4 |
| 1A94 | STRUCTURAL BASIS FOR SPECIFICITY OF RETROVIRAL PROTEASES | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1A9M | G48H MUTANT OF HIV-1 PROTEASE IN COMPLEX WITH A PEPTIDIC INHIBITOR U-89360E | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1AA9 | HUMAN C-HA-RAS(1-171)(DOT)GDP, NMR, MINIMIZED AVERAGE STRUCTURE | 3.6.5.2 |
| 1AAF | NUCLEOCAPSID ZINC FINGERS DETECTED IN RETROVIRUSES: EXAFS STUDIES ON INTACT VIRUSES AND THE SOLUTION-STATE STRUCTURE OF THE NUCLEOCAPSID PROTEIN FROM HIV-1 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1AAQ | HYDROXYETHYLENE ISOSTERE INHIBITORS OF HUMAN IMMUNODEFICIENCY VIRUS-1 PROTEASE: STRUCTURE-ACTIVITY ANALYSIS USING ENZYME KINETICS, X-RAY CRYSTALLOGRAPHY, AND INFECTED T-CELL ASSAYS | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1AAX | CRYSTAL STRUCTURE OF PROTEIN TYROSINE PHOSPHATASE 1B COMPLEXED WITH TWO BIS(PARA-PHOSPHOPHENYL)METHANE (BPPM) MOLECULES | 3.1.3.48 |
| 1AB9 | CRYSTAL STRUCTURE OF BOVINE GAMMA-CHYMOTRYPSIN | 3.4.21.1 |
| 1ABI | STRUCTURE OF THE HIRULOG 3-THROMBIN COMPLEX AND NATURE OF THE S' SUBSITES OF SUBSTRATES AND INHIBITORS | 3.4.21.5 |
| 1ABJ | STRUCTURE OF THE HIRULOG 3-THROMBIN COMPLEX AND NATURE OF THE S' SUBSITES OF SUBSTRATES AND INHIBITORS | 3.4.21.5 |
| 1ABR | CRYSTAL STRUCTURE OF ABRIN-A | 3.2.2.22 |
| 1AC0 | GLUCOAMYLASE, GRANULAR STARCH-BINDING DOMAIN COMPLEX WITH CYCLODEXTRIN, NMR, MINIMIZED AVERAGE STRUCTURE | 3.2.1.3 |
| 1AC5 | CRYSTAL STRUCTURE OF KEX1(DELTA)P, A PROHORMONE-PROCESSING CARBOXYPEPTIDASE FROM SACCHAROMYCES CEREVISIAE | 3.4.16.6 |
| 1ACB | CRYSTAL AND MOLECULAR STRUCTURE OF THE BOVINE ALPHA-CHYMOTRYPSIN-EGLIN C COMPLEX AT 2.0 ANGSTROMS RESOLUTION | 3.4.21.1 |
| 1ACJ | QUATERNARY LIGAND BINDING TO AROMATIC RESIDUES IN THE ACTIVE-SITE GORGE OF ACETYLCHOLINESTERASE | 3.1.1.7 |
| 1ACL | QUATERNARY LIGAND BINDING TO AROMATIC RESIDUES IN THE ACTIVE-SITE GORGE OF ACETYLCHOLINESTERASE | 3.1.1.7 |
| 1ACZ | GLUCOAMYLASE, GRANULAR STARCH-BINDING DOMAIN COMPLEX WITH CYCLODEXTRIN, NMR, 5 STRUCTURES | 3.2.1.3 |
| 1AD8 | COMPLEX OF THROMBIN WITH AND INHIBITOR CONTAINING A NOVEL P1 MOIETY | 3.4.21.5 |
| 1ADD | A PRE-TRANSITION STATE MIMIC OF AN ENZYME: X-RAY STRUCTURE OF ADENOSINE DEAMINASE WITH BOUND 1-DEAZA-ADENOSINE AND ZINC-ACTIVATED WATER | 3.5.4.4 |
| 1AE7 | NOTEXIN, A PRESYNAPTIC NEUROTOXIC PHOSPHOLIPASE A2 | 3.1.1.4 |
| 1AE8 | HUMAN ALPHA-THROMBIN INHIBITION BY EOC-D-PHE-PRO-AZALYS-ONP | 3.4.21.5 |
| 1AE9 | STRUCTURE OF THE LAMBDA INTEGRASE CATALYTIC CORE | 2.7.7 3.1 |
| 1AEC | CRYSTAL STRUCTURE OF ACTINIDIN-E-64 COMPLEX+ | 3.4.22.14 |
| 1AEX | STAPHYLOCOCCAL NUCLEASE, METHANE THIOL DISULFIDE TO V23C VARIANT | 3.1.31.1 |
| 1AF0 | SERRATIA PROTEASE IN COMPLEX WITH INHIBITOR | 3.4.24.40 |
| 1AF2 | CRYSTAL STRUCTURE OF CYTIDINE DEAMINASE COMPLEXED WITH URIDINE | 3.5.4.5 |
| 1AF4 | CRYSTAL STRUCTURE OF SUBTILISIN CARLSBERG IN ANHYDROUS DIOXANE | 3.4.21.62 |
| 1AF5 | GROUP I MOBILE INTRON ENDONUCLEASE | 3.1 |
| 1AF9 | TETANUS NEUROTOXIN C FRAGMENT | 3.4.24.68 |
| 1AFE | HUMAN ALPHA-THROMBIN INHIBITION BY CBZ-PRO-AZALYS-ONP | 3.4.21.5 |
| 1AFK | CRYSTAL STRUCTURE OF RIBONUCLEASE A IN COMPLEX WITH 5'-DIPHOSPHOADENOSINE-3'-PHOSPHATE | 3.1.27.5 4.6.1.18 |
| 1AFL | RIBONUCLEASE A IN COMPLEX WITH 5'-DIPHOSPHOADENOSINE 2'-PHOSPHATE AT 1.7 ANGSTROM RESOLUTION | 3.1.27.5 4.6.1.18 |
| 1AFQ | CRYSTAL STRUCTURE OF BOVINE GAMMA-CHYMOTRYPSIN COMPLEXED WITH A SYNTHETIC INHIBITOR | 3.4.21.1 |
| 1AFU | STRUCTURE OF RIBONUCLEASE A AT 2.0 ANGSTROMS FROM MONOCLINIC CRYSTALS | 3.1.27.5 4.6.1.18 |
| 1AFV | HIV-1 CAPSID PROTEIN (P24) COMPLEX WITH FAB25.3 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1AGI | CRYSTAL STRUCTURE OF BOVINE ANGIOGENIN AT 1.5 ANGSTROMS RESOLUTION | 3.1.27 |
| 1AGJ | EPIDERMOLYTIC TOXIN A FROM STAPHYLOCOCCUS AUREUS | 3.4.21 |
| 1AGM | REFINED STRUCTURE FOR THE COMPLEX OF ACARBOSE WITH GLUCOAMYLASE FROM ASPERGILLUS AWAMORI VAR. X100 TO 2.4 ANGSTROMS RESOLUTION | 3.2.1.3 |
| 1AGP | THREE-DIMENSIONAL STRUCTURES AND PROPERTIES OF A TRANSFORMING AND A NONTRANSFORMING GLY-12 MUTANT OF P21-H-RAS | 3.6.5.2 |
| 1AGX | REFINED CRYSTAL STRUCTURE OF ACINETOBACTER GLUTAMINASIFICANS GLUTAMINASE-ASPARAGINASE | 3.5.1.1 3.5.1.38 |
| 1AGY | THE 1.15 ANGSTROM REFINED STRUCTURE OF FUSARIUM SOLANI PISI CUTINASE | 3.1.1 3.1.1.74 |
| 1AH2 | SERINE PROTEASE PB92 FROM BACILLUS ALCALOPHILUS, NMR, 18 STRUCTURES | 3.4.21 |
| 1AH7 | PHOSPHOLIPASE C FROM BACILLUS CEREUS | 3.1.4.3 |
| 1AHA | THE N-GLYCOSIDASE MECHANISM OF RIBOSOME-INACTIVATING PROTEINS IMPLIED BY CRYSTAL STRUCTURES OF ALPHA-MOMORCHARIN | 3.2.2.22 |
| 1AHB | THE N-GLYCOSIDASE MECHANISM OF RIBOSOME-INACTIVATING PROTEINS IMPLIED BY CRYSTAL STRUCTURES OF ALPHA-MOMORCHARIN | 3.2.2.22 |
| 1AHC | THE N-GLYCOSIDASE MECHANISM OF RIBOSOME-INACTIVATING PROTEINS IMPLIED BY CRYSTAL STRUCTURES OF ALPHA-MOMORCHARIN | 3.2.2.22 |
| 1AHT | CRYSTAL STRUCTURE OF HUMAN ALPHA-THROMBIN COMPLEXED WITH HIRUGEN AND P-AMIDINOPHENYLPYRUVATE AT 1.6 ANGSTROMS RESOLUTION | 3.4.21.5 |
| 1AI4 | PENICILLIN ACYLASE COMPLEXED WITH 3,4-DIHYDROXYPHENYLACETIC ACID | 3.5.1.11 |
| 1AI5 | PENICILLIN ACYLASE COMPLEXED WITH M-NITROPHENYLACETIC ACID | 3.5.1.11 |
| 1AI6 | PENICILLIN ACYLASE WITH P-HYDROXYPHENYLACETIC ACID | 3.5.1.11 |
| 1AI7 | PENICILLIN ACYLASE COMPLEXED WITH PHENOL | 3.5.1.11 |
| 1AI8 | HUMAN ALPHA-THROMBIN TERNARY COMPLEX WITH THE EXOSITE INHIBITOR HIRUGEN AND ACTIVE SITE INHIBITOR PHCH2OCO-D-DPA-PRO-BOROMPG | 3.4.21.5 |
| 1AID | STRUCTURE OF A NON-PEPTIDE INHIBITOR COMPLEXED WITH HIV-1 PROTEASE: DEVELOPING A CYCLE OF STRUCTURE-BASED DRUG DESIGN | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1AIH | CATALYTIC DOMAIN OF BACTERIOPHAGE HP1 INTEGRASE | 2.7.7 3.1 |
| 1AIM | CRUZAIN INHIBITED BY BENZOYL-TYROSINE-ALANINE-FLUOROMETHYLKETONE | 3.4.22 3.4.22.51 |
| 1AIW | NMR STRUCTURES OF THE CELLULOSE-BINDING DOMAIN OF THE ENDOGLUCANASE Z FROM ERWINIA CHRYSANTHEMI, 23 STRUCTURES | 3.2.1.4 |
| 1AIX | HUMAN ALPHA-THROMBIN TERNARY COMPLEX WITH EXOSITE INHIBITOR HIRUGEN AND ACTIVE SITE INHIBITOR PHCH2OCO-D-DPA-PRO-BOROVAL | 3.4.21.5 |
| 1AJA | THREE-DIMENSIONAL STRUCTURE OF THE D153G MUTANT OF E. COLI ALKALINE PHOSPHATASE: A MUTANT WITH WEAKER MAGNESIUM BINDING AND INCREASED CATALYTIC ACTIVITY | 3.1.3.1 |
| 1AJB | THREE-DIMENSIONAL STRUCTURE OF THE D153G MUTANT OF E. COLI ALKALINE PHOSPHATASE: A MUTANT WITH WEAKER MAGNESIUM BINDING AND INCREASED CATALYTIC ACTIVITY | 3.1.3.1 |
| 1AJC | THREE-DIMENSIONAL STRUCTURE OF THE D153G MUTANT OF E. COLI ALKALINE PHOSPHATASE: A MUTANT WITH WEAKER MAGNESIUM BINDING AND INCREASED CATALYTIC ACTIVITY | 3.1.3.1 |
| 1AJD | THREE-DIMENSIONAL STRUCTURE OF THE D153G MUTANT OF E. COLI ALKALINE PHOSPHATASE: A MUTANT WITH WEAKER MAGNESIUM BINDING AND INCREASED CATALYTIC ACTIVITY | 3.1.3.1 |
| 1AJE | CDC42 FROM HUMAN, NMR, 20 STRUCTURES | 3.6.5.2 |
| 1AJK | CIRCULARLY PERMUTED (1-3,1-4)-BETA-D-GLUCAN 4-GLUCANOHYDROLASE CPA16M-84 | 3.2.1.73 |
| 1AJN | PENICILLIN ACYLASE COMPLEXED WITH P-NITROPHENYLACETIC ACID | 3.5.1.11 |
| 1AJO | CIRCULARLY PERMUTED (1-3,1-4)-BETA-D-GLUCAN 4-GLUCANOHYDROLASE CPA16M-127 | 3.2.1.73 |
| 1AJP | PENICILLIN ACYLASE COMPLEXED WITH 2,5-DIHYDROXYPHENYLACETIC ACID | 3.5.1.11 |
| 1AJQ | PENICILLIN ACYLASE COMPLEXED WITH THIOPHENEACETIC ACID | 3.5.1.11 |
| 1AJV | HIV-1 PROTEASE IN COMPLEX WITH THE CYCLIC SULFAMIDE INHIBITOR AHA006 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1AJX | HIV-1 PROTEASE IN COMPLEX WITH THE CYCLIC UREA INHIBITOR AHA001 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1AK0 | P1 NUCLEASE IN COMPLEX WITH A SUBSTRATE ANALOG | 3.1.30.1 |
| 1AK9 | SUBTILISIN MUTANT 8321 | 3.4.21.62 |
| 1AKI | THE STRUCTURE OF THE ORTHORHOMBIC FORM OF HEN EGG-WHITE LYSOZYME AT 1.5 ANGSTROMS RESOLUTION | 3.2.1.17 |
| 1AKL | ALKALINE PROTEASE FROM PSEUDOMONAS AERUGINOSA IFO3080 | 3.4.24.40 |
| 1AKN | STRUCTURE OF BILE-SALT ACTIVATED LIPASE | 3.1.1.3 3.1.1.13 3.1.1.6 |
| 1AKO | EXONUCLEASE III FROM ESCHERICHIA COLI | 3.1.11.2 |
| 1AKS | CRYSTAL STRUCTURE OF THE FIRST ACTIVE AUTOLYSATE FORM OF THE PORCINE ALPHA TRYPSIN | 3.4.21.4 |
| 1AKZ | HUMAN URACIL-DNA GLYCOSYLASE | 3.2.2 3.2.2.27 |
| 1ALH | KINETICS AND CRYSTAL STRUCTURE OF A MUTANT E. COLI ALKALINE PHOSPHATASE (ASP-369-->ASN): A MECHANISM INVOLVING ONE ZINC PER ACTIVE SITE | 3.1.3.1 |
| 1ALI | ALKALINE PHOSPHATASE MUTANT (H412N) | 3.1.3.1 |
| 1ALJ | ALKALINE PHOSPHATASE MUTANT (H412N) | 3.1.3.1 |
| 1ALK | REACTION MECHANISM OF ALKALINE PHOSPHATASE BASED ON CRYSTAL STRUCTURES. TWO METAL ION CATALYSIS | 3.1.3.1 |
| 1ALN | CRYSTAL STRUCTURE OF CYTIDINE DEAMINASE COMPLEXED WITH 3-DEAZACYTIDINE | 3.5.4.5 |
| 1ALQ | CIRCULARLY PERMUTED BETA-LACTAMASE FROM STAPHYLOCOCCUS AUREUS PC1 | 3.5.2.6 |
| 1AM5 | THE CRYSTAL STRUCTURE AND PROPOSED AMINO ACID SEQUENCE OF A PEPSIN FROM ATLANTIC COD (GADUS MORHUA) | 3.4.23.1 3.4.23 |
| 1AM7 | LYSOZYME FROM BACTERIOPHAGE LAMBDA | 3.2.1.17 4.2.2 |
| 1AMH | UNCOMPLEXED RAT TRYPSIN MUTANT WITH ASP 189 REPLACED WITH SER (D189S) | 3.4.21.4 |
| 1AMN | TRANSITION STATE ANALOG: ACETYLCHOLINESTERASE COMPLEXED WITH M-(N,N,N-TRIMETHYLAMMONIO)TRIFLUOROACETOPHENONE | 3.1.1.7 |
| 1AMP | CRYSTAL STRUCTURE OF AEROMONAS PROTEOLYTICA AMINOPEPTIDASE: A PROTOTYPICAL MEMBER OF THE CO-CATALYTIC ZINC ENZYME FAMILY | 3.4.11.10 |
| 1AMY | CRYSTAL AND MOLECULAR STRUCTURE OF BARLEY ALPHA-AMYLASE | 3.2.1.1 |
| 1AN0 | CDC42HS-GDP COMPLEX | 3.6.5.2 |
| 1AN1 | LEECH-DERIVED TRYPTASE INHIBITOR/TRYPSIN COMPLEX | 3.4.21.4 |
| 1ANB | ANIONIC TRYPSIN MUTANT WITH SER 214 REPLACED BY GLU | 3.4.21.4 |
| 1ANC | ANIONIC TRYPSIN MUTANT WITH SER 214 REPLACED BY LYS | 3.4.21.4 |
| 1AND | ANIONIC TRYPSIN MUTANT WITH ARG 96 REPLACED BY HIS | 3.4.21.4 |
| 1ANE | ANIONIC TRYPSIN WILD TYPE | 3.4.21.4 |
| 1ANG | CRYSTAL STRUCTURE OF HUMAN ANGIOGENIN REVEALS THE STRUCTURAL BASIS FOR ITS FUNCTIONAL DIVERGENCE FROM RIBONUCLEASE | 3.1.27 |
| 1ANI | ALKALINE PHOSPHATASE (D153H, K328H) | 3.1.3.1 |
| 1ANJ | ALKALINE PHOSPHATASE (K328H) | 3.1.3.1 |
| 1AO5 | MOUSE GLANDULAR KALLIKREIN-13 (PRORENIN CONVERTING ENZYME) | 3.4.21.35 3.4.21.119 |
| 1AOD | PHOSPHATIDYLINOSITOL-SPECIFIC PHOSPHOLIPASE C FROM LISTERIA MONOCYTOGENES | 3.1.4.10 4.6.1.13 |
| 1AOK | VIPOXIN COMPLEX | 3.1.1.4 |
| 1APA | X-RAY STRUCTURE OF A POKEWEED ANTIVIRAL PROTEIN, CODED BY A NEW GENOMIC CLONE, AT 0.23 NM RESOLUTION. A MODEL STRUCTURE PROVIDES A SUITABLE ELECTROSTATIC FIELD FOR SUBSTRATE BINDING. | 3.2.2.22 |
| 1APO | THREE-DIMENSIONAL STRUCTURE OF THE APO FORM OF THE N-TERMINAL EGF-LIKE MODULE OF BLOOD COAGULATION FACTOR X AS DETERMINED BY NMR SPECTROSCOPY AND SIMULATED FOLDING | 3.4.21.6 |
| 1APQ | STRUCTURE OF THE EGF-LIKE MODULE OF HUMAN C1R, NMR, 19 STRUCTURES | 3.4.21.41 |
| 1APS | THREE-DIMENSIONAL STRUCTURE OF ACYLPHOSPHATASE. REFINEMENT AND STRUCTURE ANALYSIS | 3.6.1.7 |
| 1APT | CRYSTALLOGRAPHIC ANALYSIS OF A PEPSTATIN ANALOGUE BINDING TO THE ASPARTYL PROTEINASE PENICILLOPEPSIN AT 1.8 ANGSTROMS RESOLUTION | 3.4.23.20 |
| 1APU | CRYSTALLOGRAPHIC ANALYSIS OF A PEPSTATIN ANALOGUE BINDING TO THE ASPARTYL PROTEINASE PENICILLOPEPSIN AT 1.8 ANGSTROMS RESOLUTION | 3.4.23.20 |
| 1APV | CRYSTALLOGRAPHIC ANALYSIS OF TRANSITION STATE MIMICS BOUND TO PENICILLOPEPSIN: DIFLUOROSTATINE-AND DIFLUOROSTATONE-CONTAINING PEPTIDES | 3.4.23.20 |
| 1APW | CRYSTALLOGRAPHIC ANALYSIS OF TRANSITION STATE MIMICS BOUND TO PENICILLOPEPSIN: DIFLUOROSTATINE-AND DIFLUOROSTATONE-CONTAINING PEPTIDES | 3.4.23.20 |
| 1APY | HUMAN ASPARTYLGLUCOSAMINIDASE | 3.5.1.26 |
| 1APZ | HUMAN ASPARTYLGLUCOSAMINIDASE COMPLEX WITH REACTION PRODUCT | 3.5.1.26 |
| 1AQ0 | BARLEY 1,3-1,4-BETA-GLUCANASE IN MONOCLINIC SPACE GROUP | 3.2.1.73 |
| 1AQ6 | STRUCTURE OF L-2-HALOACID DEHALOGENASE FROM XANTHOBACTER AUTOTROPHICUS | 3.8.1.2 |
| 1AQ7 | TRYPSIN WITH INHIBITOR AERUGINOSIN 98-B | 3.4.21.4 |
| 1AQH | ALPHA-AMYLASE FROM ALTEROMONAS HALOPLANCTIS | 3.2.1.1 |
| 1AQL | CRYSTAL STRUCTURE OF BOVINE BILE-SALT ACTIVATED LIPASE COMPLEXED WITH TAUROCHOLATE | 3.1.1.13 3.1.1.3 3.1.1.6 |
| 1AQM | ALPHA-AMYLASE FROM ALTEROMONAS HALOPLANCTIS COMPLEXED WITH TRIS | 3.2.1.1 |
| 1AQN | SUBTILISIN MUTANT 8324 | 3.4.21.62 |
| 1AQP | RIBONUCLEASE A COPPER COMPLEX | 3.1.27.5 4.6.1.18 |
| 1AQZ | CRYSTAL STRUCTURE OF A HIGHLY SPECIFIC ASPERGILLUS RIBOTOXIN, RESTRICTOCIN | 3.1.27 |
| 1ARB | THE PRIMARY STRUCTURE AND STRUCTURAL CHARACTERISTICS OF ACHROMOBACTER LYTICUS PROTEASE I, A LYSINE-SPECIFIC SERINE PROTEASE | 3.4.21.50 |
| 1ARC | THE PRIMARY STRUCTURE AND STRUCTURAL CHARACTERISTICS OF ACHROMOBACTER LYTICUS PROTEASE I, A LYSINE-SPECIFIC SERINE PROTEASE | 3.4.21.50 |
| 1ARL | CARBOXYPEPTIDASE A WITH ZN REMOVED | 3.4.17.1 |
| 1ARM | CARBOXYPEPTIDASE A WITH ZN REPLACED BY HG | 3.4.17.1 |
| 1ARO | T7 RNA POLYMERASE COMPLEXED WITH T7 LYSOZYME | 3.5.1.28 |
| 1AST | STRUCTURE OF ASTACIN AND IMPLICATIONS FOR ACTIVATION OF ASTACINS AND ZINC-LIGATION OF COLLAGENASES | 3.4.24.21 |
| 1ASU | AVIAN SARCOMA VIRUS INTEGRASE CATALYTIC CORE DOMAIN CRYSTALLIZED FROM 2% PEG 400, 2M AMMONIUM SULFATE, HEPES PH 7.5 | 3.4.23 2.7.7.49 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1ASV | AVIAN SARCOMA VIRUS INTEGRASE CATALYTIC CORE DOMAIN | 3.4.23 2.7.7.49 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1ASW | AVIAN SARCOMA VIRUS INTEGRASE CATALYTIC CORE DOMAIN CRYSTALLIZED FROM 20% PEG 4000, 10% ISOPROPANOL, HEPES PH 7.5 USING SELENOMETHIONINE SUBSTITUTED PROTEIN; DATA COLLECTED AT-165 DEGREES C | 3.4.23 2.7.7.49 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1AT3 | HERPES SIMPLEX VIRUS TYPE II PROTEASE | 3.4.21.97 |
| 1AT5 | HEN EGG WHITE LYSOZYME WITH A SUCCINIMIDE RESIDUE | 3.2.1.17 |
| 1AT6 | HEN EGG WHITE LYSOZYME WITH A ISOASPARTATE RESIDUE | 3.2.1.17 |
| 1ATK | CRYSTAL STRUCTURE OF THE CYSTEINE PROTEASE HUMAN CATHEPSIN K IN COMPLEX WITH THE COVALENT INHIBITOR E-64 | 3.4.22.38 |
| 1ATL | STRUCTURAL INTERACTION OF NATURAL AND SYNTHETIC INHIBITORS WITH THE VENOM METALLOPROTEINASE, ATROLYSIN C (FORM-D) | 3.4.24.42 |
| 1ATR | THREONINE 204 OF THE CHAPERONE PROTEIN HSC70 INFLUENCES THE STRUCTURE OF THE ACTIVE SITE BUT IS NOT ESSENTIAL FOR ATP HYDROLYSIS | 3.6.1.3 |
| 1ATS | THREONINE 204 OF THE CHAPERONE PROTEIN HSC70 INFLUENCES THE STRUCTURE OF THE ACTIVE SITE BUT IS NOT ESSENTIAL FOR ATP HYDROLYSIS | 3.6.1.3 |
| 1AU0 | CRYSTAL STRUCTURE OF THE CYSTEINE PROTEASE HUMAN CATHEPSIN K IN COMPLEX WITH A COVALENT SYMMETRIC DIACYLAMINOMETHYL KETONE INHIBITOR | 3.4.22.38 |
| 1AU2 | CRYSTAL STRUCTURE OF THE CYSTEINE PROTEASE HUMAN CATHEPSIN K IN COMPLEX WITH A COVALENT PROPANONE INHIBITOR | 3.4.22.38 |
| 1AU3 | CRYSTAL STRUCTURE OF THE CYSTEINE PROTEASE HUMAN CATHEPSIN K IN COMPLEX WITH A COVALENT PYRROLIDINONE INHIBITOR | 3.4.22.38 |
| 1AU4 | CRYSTAL STRUCTURE OF THE CYSTEINE PROTEASE HUMAN CATHEPSIN K IN COMPLEX WITH A COVALENT PYRROLIDINONE INHIBITOR | 3.4.22.38 |
| 1AU8 | HUMAN CATHEPSIN G | 3.4.21.20 |
| 1AU9 | SUBTILISIN BPN' MUTANT 8324 IN CITRATE | 3.4.21.62 |
| 1AUG | CRYSTAL STRUCTURE OF THE PYROGLUTAMYL PEPTIDASE I FROM BACILLUS AMYLOLIQUEFACIENS | 3.4.19.3 |
| 1AUI | HUMAN CALCINEURIN HETERODIMER | 3.1.3.16 |
| 1AUJ | BOVINE TRYPSIN COMPLEXED TO META-CYANO-BENZYLIC INHIBITOR | 3.4.21.4 |
| 1AUK | HUMAN ARYLSULFATASE A | 3.1.6.8 |
| 1AUM | HIV CAPSID C-TERMINAL DOMAIN (CAC146) | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1AUO | CARBOXYLESTERASE FROM PSEUDOMONAS FLUORESCENS | 3.1.1.1 |
| 1AUR | PMSF-INHIBITED CARBOXYLESTERASE FROM PSEUDOMONAS FLUORESCENS | 3.1.1.1 |
| 1AUT | HUMAN ACTIVATED PROTEIN C | 3.4.21.69 |
| 1AV5 | PKCI-SUBSTRATE ANALOG | 3 |
| 1AV7 | SUBTILISIN CARLSBERG L-NAPHTHYL-1-ACETAMIDO BORONIC ACID INHIBITOR COMPLEX | 3.4.21.62 |
| 1AVA | AMY2/BASI PROTEIN-PROTEIN COMPLEX FROM BARLEY SEED | 3.2.1.1 |
| 1AVF | ACTIVATION INTERMEDIATE 2 OF HUMAN GASTRICSIN FROM HUMAN STOMACH | 3.4.23.3 |
| 1AVG | THROMBIN INHIBITOR FROM TRIATOMA PALLIDIPENNIS | 3.4.21.5 |
| 1AVP | STRUCTURE OF HUMAN ADENOVIRUS 2 PROTEINASE WITH ITS 11 AMINO ACID COFACTOR | 3.4.22.39 |
| 1AVQ | TOROIDAL STRUCTURE OF LAMBDA EXONUCLEASE DETERMINED AT 2.4 ANGSTROMS | 3.1.11.3 |
| 1AVT | SUBTILISIN CARLSBERG D-PARA-CHLOROPHENYL-1-ACETAMIDO BORONIC ACID INHIBITOR COMPLEX | 3.4.21.62 |
| 1AVW | COMPLEX PORCINE PANCREATIC TRYPSIN/SOYBEAN TRYPSIN INHIBITOR, ORTHORHOMBIC CRYSTAL FORM | 3.4.21.4 |
| 1AVX | COMPLEX PORCINE PANCREATIC TRYPSIN/SOYBEAN TRYPSIN INHIBITOR, TETRAGONAL CRYSTAL FORM | 3.4.21.4 |
| 1AWB | HUMAN MYO-INOSITOL MONOPHOSPHATASE IN COMPLEX WITH D-INOSITOL-1-PHOSPHATE AND CALCIUM | 3.1.3.25 3.1.3.94 |
| 1AWF | NOVEL COVALENT THROMBIN INHIBITOR FROM PLANT EXTRACT | 3.4.21.5 |
| 1AWH | NOVEL COVALENT THROMBIN INHIBITOR FROM PLANT EXTRACT | 3.4.21.5 |
| 1AWZ | 3D SOLUTION STRUCTURE OF HUMAN ANGIOGENIN DETERMINED BY 1H, 15N NMR SPECTROSCOPY, 30 STRUCTURES | 3.1.27 |
| 1AX9 | ACETYLCHOLINESTERASE COMPLEXED WITH EDROPHONIUM, LAUE DATA | 3.1.1.7 |
| 1AXA | ACTIVE-SITE MOBILITY IN HUMAN IMMUNODEFICIENCY VIRUS TYPE 1 PROTEASE AS DEMONSTRATED BY CRYSTAL STRUCTURE OF A28S MUTANT | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1AXB | TEM-1 BETA-LACTAMASE FROM ESCHERICHIA COLI INHIBITED WITH AN ACYLATION TRANSITION STATE ANALOG | 3.5.2.6 |
| 1AXK | ENGINEERED BACILLUS BIFUNCTIONAL ENZYME GLUXYN-1 | 3.2.1.73 3.2.1.8 |
| 1AY6 | THROMBIN INHIBITOR FROM THEONALLA, CYCLOTHEANAMIDE-BASED MACROCYCLIC TRIPEPTIDE MOTIF | 3.4.21.5 |
| 1AY7 | RIBONUCLEASE SA COMPLEX WITH BARSTAR | 3.1.27.3 4.6.1.24 |
| 1AY9 | WILD-TYPE UMUD' FROM E. COLI | 3.4.21 |
| 1AYA | CRYSTAL STRUCTURES OF PEPTIDE COMPLEXES OF THE AMINO-TERMINAL SH2 DOMAIN OF THE SYP TYROSINE PHOSPHATASE | 3.1.3.48 |
| 1AYB | CRYSTAL STRUCTURES OF PEPTIDE COMPLEXES OF THE AMINO-TERMINAL SH2 DOMAIN OF THE SYP TYROSINE PHOSPHATASE | 3.1.3.48 |
| 1AYC | CRYSTAL STRUCTURES OF PEPTIDE COMPLEXES OF THE AMINO-TERMINAL SH2 DOMAIN OF THE SYP TYROSINE PHOSPHATASE | 3.1.3.48 |
| 1AYD | CRYSTAL STRUCTURES OF PEPTIDE COMPLEXES OF THE AMINO-TERMINAL SH2 DOMAIN OF THE SYP TYROSINE PHOSPHATASE | 3.1.3.48 |
| 1AYE | HUMAN PROCARBOXYPEPTIDASE A2 | 3.4.17.15 |
| 1AYK | INHIBITOR-FREE CATALYTIC FRAGMENT OF HUMAN FIBROBLAST COLLAGENASE, NMR, 30 STRUCTURES | 3.4.24.7 |
| 1AYM | HUMAN RHINOVIRUS 16 COAT PROTEIN AT HIGH RESOLUTION | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1AYN | HUMAN RHINOVIRUS 16 COAT PROTEIN | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1AYP | A PROBE MOLECULE COMPOSED OF SEVENTEEN PERCENT OF TOTAL DIFFRACTING MATTER GIVES CORRECT SOLUTIONS IN MOLECULAR REPLACEMENT | 3.1.1.4 |
| 1AYU | CRYSTAL STRUCTURE OF CYSTEINE PROTEASE HUMAN CATHEPSIN K IN COMPLEX WITH A COVALENT SYMMETRIC BISCARBOHYDRAZIDE INHIBITOR | 3.4.22.38 |
| 1AYV | CRYSTAL STRUCTURE OF CYSTEINE PROTEASE HUMAN CATHEPSIN K IN COMPLEX WITH A COVALENT THIAZOLHYDRAZIDE INHIBITOR | 3.4.22.38 |
| 1AYW | CRYSTAL STRUCTURE OF CYSTEINE PROTEASE HUMAN CATHEPSIN K IN COMPLEX WITH A COVALENT BENZYLOXYBENZOYLCARBOHYDRAZIDE INHIBITOR | 3.4.22.38 |
| 1AYX | CRYSTAL STRUCTURE OF GLUCOAMYLASE FROM SACCHAROMYCOPSIS FIBULIGERA AT 1.7 ANGSTROMS | 3.2.1.3 |
| 1AYY | GLYCOSYLASPARAGINASE | 3.5.1.26 |
| 1AZ0 | ECORV ENDONUCLEASE/DNA COMPLEX | 3.1.21.4 |
| 1AZ3 | ECORV ENDONUCLEASE, UNLIGANDED, FORM B | 3.1.21.4 |
| 1AZ4 | ECORV ENDONUCLEASE, UNLIGANDED, FORM B, T93A MUTANT | 3.1.21.4 |
| 1AZ5 | UNLIGANDED SIV PROTEASE STRUCTURE IN AN OPEN" CONFORMATION" | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1AZ6 | THREE-DIMENSIONAL STRUCTURES OF THREE ENGINEERED CELLULOSE-BINDING DOMAINS OF CELLOBIOHYDROLASE I FROM TRICHODERMA REESEI, NMR, 23 STRUCTURES | 3.2.1.91 |
| 1AZ8 | BOVINE TRYPSIN COMPLEXED TO BIS-PHENYLAMIDINE INHIBITOR | 3.4.21.4 |
| 1AZF | CHICKEN EGG WHITE LYSOZYME CRYSTAL GROWN IN BROMIDE SOLUTION | 3.2.1.17 |
| 1AZH | THREE-DIMENSIONAL STRUCTURES OF THREE ENGINEERED CELLULOSE-BINDING DOMAINS OF CELLOBIOHYDROLASE I FROM TRICHODERMA REESEI, NMR, 14 STRUCTURES | 3.2.1.91 |
| 1AZK | THREE-DIMENSIONAL STRUCTURES OF THREE ENGINEERED CELLULOSE-BINDING DOMAINS OF CELLOBIOHYDROLASE I FROM TRICHODERMA REESEI, NMR, 19 STRUCTURES | 3.2.1.91 |
| 1AZW | PROLINE IMINOPEPTIDASE FROM XANTHOMONAS CAMPESTRIS PV. CITRI | 3.4.11.5 |
| 1AZZ | FIDDLER CRAB COLLAGENASE COMPLEXED TO ECOTIN | 3.4.21.32 |
| 1B0A | 5,10, METHYLENE-TETRAHYDROPHOLATE DEHYDROGENASE/CYCLOHYDROLASE FROM E COLI. | 1.5.1.5 3.5.4.9 |
| 1B0D | STRUCTURAL EFFECTS OF MONOVALENT ANIONS ON POLYMORPHIC LYSOZYME CRYSTALS | 3.2.1.17 |
| 1B0E | CRYSTAL STRUCTURE OF PORCINE PANCREATIC ELASTASE WITH MDL 101,146 | 3.4.21.36 |
| 1B0F | CRYSTAL STRUCTURE OF HUMAN NEUTROPHIL ELASTASE WITH MDL 101, 146 | 3.4.21.37 |
| 1B0I | ALPHA-AMYLASE FROM ALTEROMONAS HALOPLANCTIS | 3.2.1.1 |
| 1B0L | RECOMBINANT HUMAN DIFERRIC LACTOFERRIN | 3.4.21 |
| 1B11 | STRUCTURE OF FELINE IMMUNODEFICIENCY VIRUS PROTEASE COMPLEXED WITH TL-3-093 | 3.4.23.16 3.4.23 2.7.7.49 3.1.26.13 3.1.13.2 3.6.1.23 2.7.7 3.1 |
| 1B12 | CRYSTAL STRUCTURE OF TYPE 1 SIGNAL PEPTIDASE FROM ESCHERICHIA COLI IN COMPLEX WITH A BETA-LACTAM INHIBITOR | 3.4.21.89 |
| 1B1E | CRYSTAL STRUCTURE OF HUMAN ANGIOGENIN VARIANT K40Q | 3.1.27 |
| 1B1I | CRYSTAL STRUCTURE OF HUMAN ANGIOGENIN | 3.1.27 |
| 1B1J | CRYSTAL STRUCTURE OF HUMAN ANGIOGENIN VARIANT H13A. | 3.1.27 |
| 1B1X | STRUCTURE OF DIFERRIC MARE LACTOFERRIN AT 2.62A RESOLUTION | 3.4.21 |
| 1B1Y | SEVENFOLD MUTANT OF BARLEY BETA-AMYLASE | 3.2.1.2 |
| 1B20 | DELETION OF A BURIED SALT-BRIDGE IN BARNASE | 3.1.27.3 3.1.27 |
| 1B21 | DELETION OF A BURIED SALT BRIDGE IN BARNASE | 3.1.27.3 3.1.27 |
| 1B24 | I-DMOI, INTRON-ENCODED ENDONUCLEASE | 3.1 |
| 1B27 | STRUCTURAL RESPONSE TO MUTATION AT A PROTEIN-PROTEIN INTERFACE | 3.1.27.3 3.1.27 |
| 1B2I | KRINGLE 2 DOMAIN OF HUMAN PLASMINOGEN: NMR SOLUTION STRUCTURE OF TRANS-4-AMINOMETHYLCYCLOHEXANE-1-CARBOXYLIC ACID (AMCHA) COMPLEX | 3.4.21.7 |
| 1B2K | STRUCTURAL EFFECTS OF MONOVALENT ANIONS ON POLYMORPHIC LYSOZYME CRYSTALS | 3.2.1.17 |
| 1B2M | THREE-DIMENSIONAL STRUCTURE OF RIBONULCEASE T1 COMPLEXED WITH AN ISOSTERIC PHOSPHONATE ANALOGUE OF GPU: ALTERNATE SUBSTRATE BINDING MODES AND CATALYSIS. | 3.1.27.3 4.6.1.24 |
| 1B2S | STRUCTURAL RESPONSE TO MUTATION AT A PROTEIN-PROTEIN INTERFACE | 3.1.27.3 3.1.27 |
| 1B2U | STRUCTURAL RESPONSE TO MUTATION AT A PROTEIN-PROTEIN INTERFACE | 3.1.27.3 3.1.27 |
| 1B2X | BARNASE WILDTYPE STRUCTURE AT PH 7.5 FROM A CRYO_COOLED CRYSTAL AT 100K | 3.1.27.3 3.1.27 |
| 1B2Y | STRUCTURE OF HUMAN PANCREATIC ALPHA-AMYLASE IN COMPLEX WITH THE CARBOHYDRATE INHIBITOR ACARBOSE | 3.2.1.1 |
| 1B2Z | DELETION OF A BURIED SALT BRIDGE IN BARNASE | 3.1.27.3 3.1.27 |
| 1B30 | XYLANASE FROM PENICILLIUM SIMPLICISSIMUM, COMPLEX WITH 1,2-(4-DEOXY-BETA-L-THREO-HEX-4-ENOPYRANOSYLURONIC ACID)-BETA-1,4-XYLOTRIOSE) | 3.2.1.8 |
| 1B31 | XYLANASE FROM PENICILLIUM SIMPLICISSIMUM, NATIVE WITH PEG200 AS CRYOPROTECTANT | 3.2.1.8 |
| 1B3D | STROMELYSIN-1 | 3.4.24.17 |
| 1B3R | RAT LIVER S-ADENOSYLHOMOCYSTEIN HYDROLASE | 3.3.1.1 |
| 1B3S | STRUCTURAL RESPONSE TO MUTATION AT A PROTEIN-PROTEIN INTERFACE | 3.1.27.3 3.1.27 |
| 1B3V | XYLANASE FROM PENICILLIUM SIMPLICISSIMUM, COMPLEX WITH XYLOSE | 3.2.1.8 |
| 1B3W | XYLANASE FROM PENICILLIUM SIMPLICISSIMUM, COMPLEX WITH XYLOBIOSE | 3.2.1.8 |
| 1B3X | XYLANASE FROM PENICILLIUM SIMPLICISSIMUM, COMPLEX WITH XYLOTRIOSE | 3.2.1.8 |
| 1B3Y | XYLANASE FROM PENICILLIUM SIMPLICISSIMUM, COMPLEX WITH XYLOTETRAOSE | 3.2.1.8 |
| 1B3Z | XYLANASE FROM PENICILLIUM SIMPLICISSIMUM, COMPLEX WITH XYLOPENTAOSE | 3.2.1.8 |
| 1B43 | FEN-1 FROM P. FURIOSUS | 3.1 |
| 1B4O | NMR STUDY OF SSO7D MUTANT (F31A) MINIMIZED AVERAGE STRUCTURE | 3.1.27 |
| 1B4W | BASIC PHOSPHOLIPASE A2 FROM AGKISTRODON HALYS PALLAS-IMPLICATIONS FOR ITS ASSOCIATION AND ANTICOAGULANT ACTIVITIES BY X-RAY CRYSTALLOGRAPHY | 3.1.1.4 |
| 1B59 | COMPLEX OF HUMAN METHIONINE AMINOPEPTIDASE-2 COMPLEXED WITH OVALICIN | 3.4.11.18 |
| 1B5F | NATIVE CARDOSIN A FROM CYNARA CARDUNCULUS L. | 3.4.23 |
| 1B5G | HUMAN THROMBIN COMPLEXED WITH NOVEL SYNTHETIC PEPTIDE MIMETIC INHIBITOR AND HIRUGEN | 3.4.21.5 |
| 1B5U | CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME: CALORIMETRY AND X-RAY ANALYSIS OF SIX SER->ALA MUTANT | 3.2.1.17 |
| 1B5V | CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME: CALORIMETRY AND X-RAY ANALYSIS OF SIX SER->ALA MUTANTS | 3.2.1.17 |
| 1B5W | CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME: CALORIMETRY AND X-RAY ANALYSIS OF SIX SER->ALA MUTANTS | 3.2.1.17 |
| 1B5X | CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME: CALORIMETRY AND X-RAY ANALYSIS OF SIX SER->ALA MUTANTS | 3.2.1.17 |
| 1B5Y | CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME: CALORIMETRY AND X-RAY ANALYSIS OF SIX SER->ALA MUTANTS | 3.2.1.17 |
| 1B5Z | CONTRIBUTION OF HYDROGEN BONDS TO THE CONFORMATIONAL STABILITY OF HUMAN LYSOZYME: CALORIMETRY AND X-RAY ANALYSIS OF SIX SER->ALA MUTANTS | 3.2.1.17 |
| 1B65 | STRUCTURE OF L-AMINOPEPTIDASE D-ALA-ESTERASE/AMIDASE FROM OCHROBACTRUM ANTHROPI, A PROTOTYPE FOR THE SERINE AMINOPEPTIDASES, REVEALS A NEW VARIANT AMONG THE NTN HYDROLASE FOLD | 3.4.11.19 |
| 1B6A | HUMAN METHIONINE AMINOPEPTIDASE 2 COMPLEXED WITH TNP-470 | 3.4.11.18 |
| 1B6G | HALOALKANE DEHALOGENASE AT PH 5.0 CONTAINING CHLORIDE | 3.8.1.5 |
| 1B6I | T4 LYSOZYME MUTANT WITH CYS 54 REPLACED BY THR, CYS 97 REPLACED BY ALA, THR 21 REPLACED BY CYS AND LYS 124 REPLACED BY CYS (C54T,C97A,T21C,K124C) | 3.2.1.17 |
| 1B6J | HIV-1 PROTEASE COMPLEXED WITH MACROCYCLIC PEPTIDOMIMETIC INHIBITOR 1 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1B6K | HIV-1 PROTEASE COMPLEXED WITH MACROCYCLIC PEPTIDOMIMETIC INHIBITOR 5 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1B6L | HIV-1 PROTEASE COMPLEXED WITH MACROCYCLIC PEPTIDOMIMETIC INHIBITOR 4 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1B6M | HIV-1 PROTEASE COMPLEXED WITH MACROCYCLIC PEPTIDOMIMETIC INHIBITOR 6 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1B6P | HIV-1 PROTEASE COMPLEXED WITH MACROCYCLIC PEPTIDOMIMETIC INHIBITOR 7 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1B6V | CRYSTAL STRUCTURE OF A HYBRID BETWEEN RIBONUCLEASE A AND BOVINE SEMINAL RIBONUCLEASE | 3.1.27.5 4.6.1.18 |
| 1B78 | STRUCTURE-BASED IDENTIFICATION OF THE BIOCHEMICAL FUNCTION OF A HYPOTHETICAL PROTEIN FROM METHANOCOCCUS JANNASCHII:MJ0226 | 3.6.1.66 |
| 1B79 | N-TERMINAL DOMAIN OF DNA REPLICATION PROTEIN DNAB | 3.6.1 3.6.4.12 |
| 1B7E | TRANSPOSASE INHIBITOR | 3.1 |
| 1B7L | VERIFICATION OF SPMP USING MUTANT HUMAN LYSOZYMES | 3.2.1.17 |
| 1B7M | VERIFICATION OF SPMP USING MUTANT HUMAN LYSOZYMES | 3.2.1.17 |
| 1B7N | VERIFICATION OF SPMP USING MUTANT HUMAN LYSOZYMES | 3.2.1.17 |
| 1B7O | VERIFICATION OF SPMP USING MUTANT HUMAN LYSOZYMES | 3.2.1.17 |
| 1B7P | VERIFICATION OF SPMP USING MUTANT HUMAN LYSOZYMES | 3.2.1.17 |
| 1B7Q | VERIFICATION OF SPMP USING MUTANT HUMAN LYSOZYMES | 3.2.1.17 |
| 1B7R | VERIFICATION OF SPMP USING MUTANT HUMAN LYSOZYMES | 3.2.1.17 |
| 1B7S | VERIFICATION OF SPMP USING MUTANT HUMAN LYSOZYMES | 3.2.1.17 |
| 1B7U | STRUCTURE OF MARE APOLACTOFERRIN: THE N AND C LOBES ARE IN THE CLOSED FORM | 3.4.21 |
| 1B7X | STRUCTURE OF HUMAN ALPHA-THROMBIN Y225I MUTANT BOUND TO D-PHE-PRO-ARG-CHLOROMETHYLKETONE | 3.4.21.5 |
| 1B7Z | STRUCTURE OF OXALATE SUBSTITUTED DIFERRIC MARE LACTOFERRIN FROM COLOSTRUM | 3.4.21 |
| 1B8J | ALKALINE PHOSPHATASE COMPLEXED WITH VANADATE | 3.1.3.1 |
| 1B8Y | X-RAY STRUCTURE OF HUMAN STROMELYSIN CATALYTIC DOMAIN COMPLEXED WITH NON-PEPTIDE INHIBITORS: IMPLICATIONS FOR INHIBITOR SELECTIVITY | 3.4.24.17 |
| 1B90 | BACILLUS CEREUS BETA-AMYLASE APO FORM | 3.2.1.2 |
| 1B92 | MOBILITY OF AN HIV-1 INTEGRASE ACTIVE SITE LOOP IS CORRELATED WITH CATALYTIC ACTIVITY | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1B94 | RESTRICTION ENDONUCLEASE ECORV WITH CALCIUM | 3.1.21.4 |
| 1B95 | ANALYSIS OF A MUTATIONAL HOT-SPOT IN THE ECORV RESTRICTION ENDONUCLEASE: A CATALYTIC ROLE FOR A MAIN CHAIN CARBONYL GROUP | 3.1.21.4 |
| 1B96 | ANALYSIS OF A MUTATIONAL HOT-SPOT IN THE ECORV RESTRICTION ENDONUCLEASE: A CATALYTIC ROLE FOR A MAIN CHAIN CARBONYL GROUP | 3.1.21.4 |
| 1B97 | ANALYSIS OF A MUTATIONAL HOT-SPOT IN THE ECORV RESTRICTION ENDONUCLEASE: A CATALYTIC ROLE FOR A MAIN CHAIN CARBONYL GROUP | 3.1.21.4 |
| 1B9D | MOBILITY OF AN HIV-1 INTEGRASE ACTIVE SITE LOOP IS CORRELATED WITH CATALYTIC ACTIVITY | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1B9F | MOBILITY OF AN HIV-1 INTEGRASE ACTIVE SITE LOOP IS CORRELATED WITH CATALYTIC ACTIVITY | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1B9S | NOVEL AROMATIC INHIBITORS OF INFLUENZA VIRUS NEURAMINIDASE MAKE SELECTIVE INTERACTIONS WITH CONSERVED RESIDUES AND WATER MOLECULES IN THE ACTIVE SITE | 3.2.1.18 |
| 1B9T | NOVEL AROMATIC INHIBITORS OF INFLUENZA VIRUS NEURAMINIDASE MAKE SELECTIVE INTERACTIONS WITH CONSERVED RESIDUES AND WATER MOLECULES IN THE ACTIVE SITE | 3.2.1.18 |
| 1B9V | NOVEL AROMATIC INHIBITORS OF INFLUENZA VIRUS NEURAMINIDASE MAKE SELECTIVE INTERACTIONS WITH CONSERVED RESIDUES AND WATER MOLECULES IN TEH ACTIVE SITE | 3.2.1.18 |
| 1B9Z | BACILLUS CEREUS BETA-AMYLASE COMPLEXED WITH MALTOSE | 3.2.1.2 |
| 1BA0 | HEAT-SHOCK COGNATE 70KD PROTEIN 44KD ATPASE N-TERMINAL 1NGE 3 | 3.6.1.3 |
| 1BA1 | HEAT-SHOCK COGNATE 70KD PROTEIN 44KD ATPASE N-TERMINAL MUTANT WITH CYS 17 REPLACED BY LYS | 3.6.1.3 |
| 1BA8 | THROMBIN INHIBITOR WITH A RIGID TRIPEPTIDYL ALDEHYDES | 3.4.21.5 |
| 1BAG | ALPHA-AMYLASE FROM BACILLUS SUBTILIS COMPLEXED WITH MALTOPENTAOSE | 3.2.1.1 |
| 1BAI | CRYSTAL STRUCTURE OF ROUS SARCOMA VIRUS PROTEASE IN COMPLEX WITH INHIBITOR | 3.4.23 |
| 1BAJ | HIV-1 CAPSID PROTEIN C-TERMINAL FRAGMENT PLUS GAG P2 DOMAIN | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BAM | STRUCTURE OF RESTRICTION ENDONUCLEASE BAMHI PHASED AT 1.95 ANGSTROMS RESOLUTION BY MAD ANALYSIS | 3.1.21.4 |
| 1BAN | THE CONTRIBUTION OF BURIED HYDROGEN BONDS TO PROTEIN STABILITY: THE CRYSTAL STRUCTURES OF TWO BARNASE MUTANTS | 3.1.27 |
| 1BAO | THE CONTRIBUTION OF BURIED HYDROGEN BONDS TO PROTEIN STABILITY: THE CRYSTAL STRUCTURES OF TWO BARNASE MUTANTS | 3.1.27 |
| 1BAV | CARBOXYPEPTIDASE A COMPLEXED WITH 2-BENZYL-3-IODO-PROPANOIC ACID (BIP) | 3.4.17.1 |
| 1BB0 | THROMBIN INHIBITORS WITH RIGID TRIPEPTIDYL ALDEHYDES | 3.4.21.5 |
| 1BB3 | HUMAN LYSOZYME MUTANT A96L | 3.2.1.17 |
| 1BB4 | HUMAN LYSOZYME DOUBLE MUTANT A96L, W109H | 3.2.1.17 |
| 1BB5 | HUMAN LYSOZYME MUTANT A96L COMPLEXED WITH CHITOTRIOSE | 3.2.1.17 |
| 1BB6 | LYSOZYME COMPLEX WITH 4-METHYL-UMBELLIFERYL CHITOTRIOSE | 3.2.1.17 |
| 1BB7 | LYSOZYME COMPLEX WITH 4-METHYL-UMBELLIFERYL CHITOBIOSE | 3.2.1.17 |
| 1BBC | STRUCTURE OF RECOMBINANT HUMAN RHEUMATOID ARTHRITIC SYNOVIAL FLUID PHOSPHOLIPASE A2 AT 2.2 ANGSTROMS RESOLUTION | 3.1.1.4 |
| 1BBR | THE STRUCTURE OF RESIDUES 7-16 OF THE A ALPHA CHAIN OF HUMAN FIBRINOGEN BOUND TO BOVINE THROMBIN AT 2.3 ANGSTROMS RESOLUTION | 3.4.21.5 |
| 1BBS | X-RAY ANALYSES OF PEPTIDE INHIBITOR COMPLEXES DEFINE THE STRUCTURAL BASIS OF SPECIFICITY FOR HUMAN AND MOUSE RENINS | 3.4.23.15 |
| 1BBY | DNA-BINDING DOMAIN FROM HUMAN RAP30, NMR, MINIMIZED AVERAGE | 3.6.4.12 |
| 1BC2 | ZN-DEPENDENT METALLO-BETA-LACTAMASE FROM BACILLUS CEREUS | 3.5.2.6 |
| 1BC4 | THE SOLUTION STRUCTURE OF A CYTOTOXIC RIBONUCLEASE FROM THE OOCYTES OF RANA CATESBEIANA (BULLFROG), NMR, 15 STRUCTURES | 3.1.27.5 3.1.27 |
| 1BCI | C2 DOMAIN OF CYTOSOLIC PHOSPHOLIPASE A2, NMR, MINIMIZED AVERAGE STRUCTURE | 3.1.1.4 3.1.1.5 |
| 1BCM | BACTERIOPHAGE MU TRANSPOSASE CORE DOMAIN WITH 2 MONOMERS PER ASYMMETRIC UNIT | 3.1.22 6.5.1 |
| 1BCO | BACTERIOPHAGE MU TRANSPOSASE CORE DOMAIN | 3.1.22 6.5.1 |
| 1BCR | COMPLEX OF THE WHEAT SERINE CARBOXYPEPTIDASE, CPDW-II, WITH THE MICROBIAL PEPTIDE ALDEHYDE INHIBITOR, ANTIPAIN, AND ARGININE AT ROOM TEMPERATURE | 3.4.16.6 |
| 1BCS | COMPLEX OF THE WHEAT SERINE CARBOXYPEPTIDASE, CPDW-II, WITH THE MICROBIAL PEPTIDE ALDEHYDE INHIBITOR, CHYMOSTATIN, AND ARGININE AT 100 DEGREES KELVIN | 3.4.16.6 |
| 1BCU | ALPHA-THROMBIN COMPLEXED WITH HIRUGEN AND PROFLAVIN | 3.4.21.5 |
| 1BCX | MUTATIONAL AND CRYSTALLOGRAPHIC ANALYSES OF THE ACTIVE SITE RESIDUES OF THE BACILLUS CIRCULANS XYLANASE | 3.2.1.8 |
| 1BDA | CATALYTIC DOMAIN OF HUMAN SINGLE CHAIN TISSUE PLASMINOGEN ACTIVATOR IN COMPLEX WITH DANSYL-EGR-CMK (DANSYL-GLU-GLY-ARG CHLOROMETHYL KETONE) | 3.4.21.68 |
| 1BDL | HIV-1 (2:31-37) PROTEASE COMPLEXED WITH INHIBITOR SB203386 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BDQ | HIV-1 (2:31-37, 47, 82) PROTEASE COMPLEXED WITH INHIBITOR SB203386 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BDR | HIV-1 (2: 31, 33-37) PROTEASE COMPLEXED WITH INHIBITOR SB203386 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BDX | E. COLI DNA HELICASE RUVA WITH BOUND DNA HOLLIDAY JUNCTION, ALPHA CARBONS AND PHOSPHATE ATOMS ONLY | 3.6.4.12 |
| 1BE0 | HALOALKANE DEHALOGENASE AT PH 5.0 CONTAINING ACETIC ACID | 3.8.1.5 |
| 1BE6 | TRANS-CINNAMOYL-SUBTILISIN IN ANHYDROUS ACETONITRILE | 3.4.21.62 |
| 1BE8 | TRANS-CINNAMOYL-SUBTILISIN IN WATER | 3.4.21.62 |
| 1BEE | HALOALKANE DEHALOGENASE MUTANT WITH TRP 175 REPLACED BY TYR | 3.8.1.5 |
| 1BEL | HYDROLASE PHOSPHORIC DIESTER, RNA | 3.1.27.5 4.6.1.18 |
| 1BEV | BOVINE ENTEROVIRUS VG-5-27 | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1BEZ | HALOALKANE DEHALOGENASE MUTANT WITH TRP 175 REPLACED BY TYR AT PH 5 | 3.8.1.5 |
| 1BF2 | STRUCTURE OF PSEUDOMONAS ISOAMYLASE | 3.2.1.68 |
| 1BF9 | N-TERMINAL EGF-LIKE DOMAIN FROM HUMAN FACTOR VII, NMR, 23 STRUCTURES | 3.4.21.21 |
| 1BFK | CRYSTAL STRUCTURE OF SUBTILISIN CARLSBERG IN 40% ACETONITRILE | 3.4.21.62 |
| 1BFN | BETA-AMYLASE/BETA-CYCLODEXTRIN COMPLEX | 3.2.1.2 |
| 1BFU | SUBTILISIN CARLSBERG IN 20% DIOXANE | 3.4.21.62 |
| 1BG4 | XYLANASE FROM PENICILLIUM SIMPLICISSIMUM | 3.2.1.8 |
| 1BG9 | BARLEY ALPHA-AMYLASE WITH SUBSTRATE ANALOGUE ACARBOSE | 3.2.1.1 |
| 1BGA | BETA-GLUCOSIDASE A FROM BACILLUS POLYMYXA | 3.2.1.21 |
| 1BGB | ECORV ENDONUCLEASE COMPLEX WITH 5'-CGGGATATCCC DNA | 3.1.21.4 |
| 1BGG | GLUCOSIDASE A FROM BACILLUS POLYMYXA COMPLEXED WITH GLUCONATE | 3.2.1.21 |
| 1BGI | ORTHORHOMBIC LYSOZYME CRYSTALLIZED AT HIGH TEMPERATURE (310K) | 3.2.1.17 |
| 1BGO | CRYSTAL STRUCTURE OF CYSTEINE PROTEASE HUMAN CATHEPSIN K IN COMPLEX WITH A COVALENT PEPTIDOMIMETIC INHIBITOR | 3.4.22.38 |
| 1BGS | RECOGNITION BETWEEN A BACTERIAL RIBONUCLEASE, BARNASE, AND ITS NATURAL INHIBITOR, BARSTAR | 3.1.27 |
| 1BH6 | SUBTILISIN DY IN COMPLEX WITH THE SYNTHETIC INHIBITOR N-BENZYLOXYCARBONYL-ALA-PRO-PHE-CHLOROMETHYL KETONE | 3.4.21.62 |
| 1BHE | POLYGALACTURONASE FROM ERWINIA CAROTOVORA SSP. CAROTOVORA | 3.2.1.15 |
| 1BHG | HUMAN BETA-GLUCURONIDASE AT 2.6 A RESOLUTION | 3.2.1.31 |
| 1BHL | CACODYLATED CATALYTIC DOMAIN OF HIV-1 INTEGRASE | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BHM | RESTRICTION ENDONUCLEASE BAMHI COMPLEX WITH DNA | 3.1.21.4 |
| 1BHX | X-RAY STRUCTURE OF THE COMPLEX OF HUMAN ALPHA THROMBIN WITH THE INHIBITOR SDZ 229-357 | 3.4.21.5 |
| 1BHZ | LOW TEMPERATURE MIDDLE RESOLUTION STRUCTURE OF HEN EGG WHITE LYSOZYME FROM MASC DATA | 3.2.1.17 |
| 1BI4 | CATALYTIC DOMAIN OF HIV-1 INTEGRASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BIF | 6-PHOSPHOFRUCTO-2-KINASE/FRUCTOSE-2,6-BISPHOSPHATASE BIFUNCTIONAL ENZYME COMPLEXED WITH ATP-G-S AND PHOSPHATE | 2.7.1.105 3.1.3.46 |
| 1BIL | CRYSTALLOGRAPHIC STUDIES ON THE BINDING MODES OF P2-P3 BUTANEDIAMIDE RENIN INHIBITORS | 3.4.23.15 |
| 1BIM | CRYSTALLOGRAPHIC STUDIES ON THE BINDING MODES OF P2-P3 BUTANEDIAMIDE RENIN INHIBITORS | 3.4.23.15 |
| 1BIO | HUMAN COMPLEMENT FACTOR D IN COMPLEX WITH ISATOIC ANHYDRIDE INHIBITOR | 3.4.21.46 |
| 1BIR | RIBONUCLEASE T1, PHE 100 TO ALA MUTANT COMPLEXED WITH 2' GMP | 3.1.27.3 4.6.1.24 |
| 1BIS | HIV-1 INTEGRASE CORE DOMAIN | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BIT | THE CRYSTAL STRUCTURE OF ANIONIC SALMON TRYPSIN IN A SECOND CRYSTAL FORM | 3.4.21.4 |
| 1BIU | HIV-1 INTEGRASE CORE DOMAIN COMPLEXED WITH MG++ | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BIW | DESIGN AND SYNTHESIS OF CONFORMATIONALLY-CONSTRAINED MMP INHIBITORS | 3.4.24.17 |
| 1BIX | THE CRYSTAL STRUCTURE OF THE HUMAN DNA REPAIR ENDONUCLEASE HAP1 SUGGESTS THE RECOGNITION OF EXTRA-HELICAL DEOXYRIBOSE AT DNA ABASIC SITES | 4.2.99.18 3.1 |
| 1BIY | STRUCTURE OF DIFERRIC BUFFALO LACTOFERRIN | 3.4.21 |
| 1BIZ | HIV-1 INTEGRASE CORE DOMAIN | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BJI | THE X-RAY STRUCTURE OF A COMPLEX OF TERN N9 INFLUENZA VIRUS NEURAMINIDASE COMPLEXED WITH THE GLAXO 6-CARBOXAMIDE SIALIC ACID ANALOGUE GR217029 | 3.2.1.18 |
| 1BJJ | AGKISTRODOTOXIN, A PHOSPHOLIPASE A2-TYPE PRESYNAPTIC NEUROTOXIN FROM AGKISTRODON HALYS PALLAS | 3.1.1.4 |
| 1BJR | COMPLEX FORMED BETWEEN PROTEOLYTICALLY GENERATED LACTOFERRIN FRAGMENT AND PROTEINASE K | 3.4.21.64 |
| 1BJU | BETA-TRYPSIN COMPLEXED WITH ACPU | 3.4.21.4 |
| 1BJV | BETA-TRYPSIN COMPLEXED WITH APPU | 3.4.21.4 |
| 1BK1 | ENDO-1,4-BETA-XYLANASE C | 3.2.1.8 |
| 1BK4 | CRYSTAL STRUCTURE OF RABBIT LIVER FRUCTOSE-1,6-BISPHOSPHATASE AT 2.3 ANGSTROM RESOLUTION | 3.1.3.11 |
| 1BK7 | RIBONUCLEASE MC1 FROM THE SEEDS OF BITTER GOURD | 3.1.27.1 4.6.1.19 |
| 1BK9 | PHOSPHOLIPASE A2 MODIFIED BY PBPB | 3.1.1.4 |
| 1BKA | OXALATE-SUBSTITUTED DIFERRIC LACTOFERRIN | 3.4.21 |
| 1BKC | CATALYTIC DOMAIN OF TNF-ALPHA CONVERTING ENZYME (TACE) | 3.4.24.86 |
| 1BKD | COMPLEX OF HUMAN H-RAS WITH HUMAN SOS-1 | 3.6.5.2 |
| 1BL3 | CATALYTIC DOMAIN OF HIV-1 INTEGRASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BLC | INHIBITION OF BETA-LACTAMASE BY CLAVULANATE: TRAPPED INTERMEDIATES IN CRYOCRYSTALLOGRAPHIC STUDIES | 3.5.2.6 |
| 1BLF | STRUCTURE OF DIFERRIC BOVINE LACTOFERRIN AT 2.8 ANGSTROMS RESOLUTION | 3.4.21 |
| 1BLH | STRUCTURE OF A PHOSPHONATE-INHIBITED BETA-LACTAMASE. AN ANALOG OF THE TETRAHEDRAL TRANSITION STATE(SLASH)INTERMEDIATE OF BETA-LACTAM HYDROLYSIS | 3.5.2.6 |
| 1BLI | BACILLUS LICHENIFORMIS ALPHA-AMYLASE | 3.2.1.1 |
| 1BLL | X-RAY CRYSTALLOGRAPHIC DETERMINATION OF THE STRUCTURE OF BOVINE LENS LEUCINE AMINOPEPTIDASE COMPLEXED WITH AMASTATIN: FORMULATION OF A CATALYTIC MECHANISM FEATURING A GEM-DIOLATE TRANSITION STATE | 3.4.11.1 3.4.13.23 3.4.11.5 |
| 1BLP | STRUCTURAL BASIS FOR THE INACTIVATION OF THE P54 MUTANT OF BETA-LACTAMASE FROM STAPHYLOCOCCUS AUREUS PC1 | 3.5.2.6 |
| 1BLS | CRYSTALLOGRAPHIC STRUCTURE OF A PHOSPHONATE DERIVATIVE OF THE ENTEROBACTER CLOACAE P99 CEPHALOSPORINASE: MECHANISTIC INTERPRETATION OF A BETA-LACTAMASE TRANSITION STATE ANALOG | 3.5.2.6 |
| 1BM6 | SOLUTION STRUCTURE OF THE CATALYTIC DOMAIN OF HUMAN STROMELYSIN-1 COMPLEXED TO A POTENT NON-PEPTIDIC INHIBITOR, NMR, 20 STRUCTURES | 3.4.24.17 |
| 1BMA | BENZYL METHYL AMINIMIDE INHIBITOR COMPLEXED TO PORCINE PANCREATIC ELASTASE | 3.4.21.36 |
| 1BMC | STRUCTURE OF A ZINC METALLO-BETA-LACTAMASE FROM BACILLUS CEREUS | 3.5.2.6 |
| 1BML | COMPLEX OF THE CATALYTIC DOMAIN OF HUMAN PLASMIN AND STREPTOKINASE | 3.4.21.7 |
| 1BMM | HUMAN ALPHA-THROMBIN COMPLEXED WITH [S-(R*,R*)]-4-[(AMINOIMINOMETHYL)AMINO]-N-[[1-[3-HYDROXY-2-[(2-NAPHTHALENYLSULFONYL)AMINO]-1-OXOPROPYL]-2-PYRROLIDINYL] METHYL]BUTANAMIDE (BMS-186282) | 3.4.21.5 |
| 1BMN | HUMAN ALPHA-THROMBIN COMPLEXED WITH [S-(R*,R*)]-1-(AMINOIMINOMETHYL)-N-[[1-[N-[(2-NAPHTHALENYLSULFONYL)-L-SERYL]-PYRROLIDINYL]METHYL]-3-PIPERIDENECARBOXAMIDE (BMS-189090) | 3.4.21.5 |
| 1BMQ | CRYSTAL STRUCTURE OF THE COMPLEX OF INTERLEUKIN-1BETA CONVERTING ENZYME (ICE) WITH A PEPTIDE BASED INHIBITOR, (3S )-N-METHANESULFONYL-3-({1-[N-(2-NAPHTOYL)-L-VALYL]-L-PROLYL }AMINO)-4-OXOBUTANAMIDE | 3.4.22.36 |
| 1BN5 | HUMAN METHIONINE AMINOPEPTIDASE 2 | 3.4.11.18 |
| 1BN6 | HALOALKANE DEHALOGENASE FROM A RHODOCOCCUS SPECIES | 3.8.1.5 |
| 1BN7 | HALOALKANE DEHALOGENASE FROM A RHODOCOCCUS SPECIES | 3.8.1.5 |
| 1BNE | BARNASE A43C/S80C DISULFIDE MUTANT | 3.1.27 |
| 1BNF | BARNASE T70C/S92C DISULFIDE MUTANT | 3.1.27 |
| 1BNG | BARNASE S85C/H102C DISULFIDE MUTANT | 3.1.27 |
| 1BNI | BARNASE WILDTYPE STRUCTURE AT PH 6.0 | 3.1.27 |
| 1BNJ | BARNASE WILDTYPE STRUCTURE AT PH 9.0 | 3.1.27 |
| 1BNK | HUMAN 3-METHYLADENINE DNA GLYCOSYLASE COMPLEXED TO DNA | 3.2.2.21 |
| 1BNR | BARNASE | 3.1.27 |
| 1BNS | STRUCTURAL STUDIES OF BARNASE MUTANTS | 3.1.27 |
| 1BOA | HUMAN METHIONINE AMINOPEPTIDASE 2 COMPLEXED WITH ANGIOGENESIS INHIBITOR FUMAGILLIN | 3.4.11.18 |
| 1BOL | THE CRYSTAL STRUCTURE OF RIBONUCLEASE RH FROM RHIZOPUS NIVEUS AT 2.0 A RESOLUTION | 3.1.27.1 4.6.1.19 |
| 1BOQ | PRO REGION C-TERMINUS: PROTEASE ACTIVE SITE INTERACTIONS ARE CRITICAL IN CATALYZING THE FOLDING OF ALPHA-LYTIC PROTEASE | 3.4.21.12 |
| 1BOX | N39S MUTANT OF RNASE SA FROM STREPTOMYCES AUREOFACIENS | 3.1.27.3 4.6.1.24 |
| 1BP2 | STRUCTURE OF BOVINE PANCREATIC PHOSPHOLIPASE A2 AT 1.7 ANGSTROMS RESOLUTION | 3.1.1.4 |
| 1BP4 | USE OF PAPAIN AS A MODEL FOR THE STRUCTURE-BASED DESIGN OF CATHEPSIN K INHIBITORS. CRYSTAL STRUCTURES OF TWO PAPAIN INHIBITOR COMPLEXES DEMONSTRATE BINDING TO S'-SUBSITES. | 3.4.22.2 |
| 1BPL | GLYCOSYLTRANSFERASE | 3.2.1.1 |
| 1BPM | DIFFERENTIATION AND IDENTIFICATION OF THE TWO CATALYTIC METAL BINDING SITES IN BOVINE LENS LEUCINE AMINOPEPTIDASE BY X-RAY CRYSTALLOGRAPHY | 3.4.11.1 3.4.13.23 3.4.11.5 |
| 1BPN | DIFFERENTIATION AND IDENTIFICATION OF THE TWO CATALYTIC METAL BINDING SITES IN BOVINE LENS LEUCINE AMINOPEPTIDASE BY X-RAY CRYSTALLOGRAPHY | 3.4.11.1 3.4.13.23 3.4.11.5 |
| 1BPQ | PHOSPHOLIPASE A2 ENGINEERING. X-RAY STRUCTURAL AND FUNCTIONAL EVIDENCE FOR THE INTERACTION OF LYSINE-56 WITH SUBSTRATES | 3.1.1.4 |
| 1BQB | AUREOLYSIN, STAPHYLOCOCCUS AUREUS METALLOPROTEINASE | 3.4.24.27 3.4.24.29 |
| 1BQC | BETA-MANNANASE FROM THERMOMONOSPORA FUSCA | 3.2.1.78 |
| 1BQI | USE OF PAPAIN AS A MODEL FOR THE STRUCTURE-BASED DESIGN OF CATHEPSIN K INHIBITORS. CRYSTAL STRUCTURES OF TWO PAPAIN INHIBITOR COMPLEXES DEMONSTRATE BINDING TO S'-SUBSITES. | 3.4.22.2 |
| 1BQM | HIV-1 RT/HBY 097 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BQN | TYR 188 LEU HIV-1 RT/HBY 097 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BQO | DISCOVERY OF POTENT, ACHIRAL MATRIX METALLOPROTEINASE INHIBITORS | 3.4.24.17 |
| 1BQQ | CRYSTAL STRUCTURE OF THE MT1-MMP--TIMP-2 COMPLEX | 3.4.24 3.4.24.80 |
| 1BQY | PLASMINOGEN ACTIVATOR (TSV-PA) FROM SNAKE VENOM | 3.4.21 |
| 1BR5 | RICIN A CHAIN (RECOMBINANT) COMPLEX WITH NEOPTERIN | 3.2.2.22 |
| 1BR6 | RICIN A CHAIN (RECOMBINANT) COMPLEX WITH PTEROIC ACID | 3.2.2.22 |
| 1BRA | RELOCATING A NEGATIVE CHARGE IN THE BINDING POCKET OF TRYPSIN | 3.4.21.4 |
| 1BRC | RELOCATING A NEGATIVE CHARGE IN THE BINDING POCKET OF TRYPSIN | 3.4.21.4 |
| 1BRG | CRYSTALLOGRAPHIC ANALYSIS OF PHE->LEU SUBSTITUTION IN THE HYDROPHOBIC CORE OF BARNASE | 3.1.27 |
| 1BRH | BARNASE MUTANT WITH LEU 14 REPLACED BY ALA | 3.1.27 |
| 1BRI | BARNASE MUTANT WITH ILE 76 REPLACED BY ALA | 3.1.27 |
| 1BRJ | BARNASE MUTANT WITH ILE 88 REPLACED BY ALA | 3.1.27 |
| 1BRK | BARNASE MUTANT WITH ILE 96 REPLACED BY ALA | 3.1.27 |
| 1BRS | PROTEIN-PROTEIN RECOGNITION: CRYSTAL STRUCTURAL ANALYSIS OF A BARNASE-BARSTAR COMPLEX AT 2.0-A RESOLUTION | 3.1.27 |
| 1BRU | STRUCTURE OF PORCINE PANCREATIC ELASTASE COMPLEXED WITH THE ELASTASE INHIBITOR GR143783 | 3.4.21.71 |
| 1BRY | BRYODIN TYPE I RIP | 3.2.2.22 |
| 1BS4 | PEPTIDE DEFORMYLASE AS ZN2+ CONTAINING FORM (NATIVE) IN COMPLEX WITH INHIBITOR POLYETHYLENE GLYCOL | 3.5.1.31 3.5.1.88 |
| 1BS5 | PEPTIDE DEFORMYLASE AS ZN2+ CONTAINING FORM | 3.5.1.31 3.5.1.88 |
| 1BS6 | PEPTIDE DEFORMYLASE AS NI2+ CONTAINING FORM IN COMPLEX WITH TRIPEPTIDE MET-ALA-SER | 3.5.1.31 3.5.1.88 |
| 1BS7 | PEPTIDE DEFORMYLASE AS NI2+ CONTAINING FORM | 3.5.1.31 3.5.1.88 |
| 1BS8 | PEPTIDE DEFORMYLASE AS ZN2+ CONTAINING FORM IN COMPLEX WITH TRIPEPTIDE MET-ALA-SER | 3.5.1.31 3.5.1.88 |
| 1BS9 | ACETYLXYLAN ESTERASE FROM P. PURPUROGENUM REFINED AT 1.10 ANGSTROMS | 3.1.1.6 3.1.1.72 |
| 1BSC | CRYSTAL STRUCTURAL ANALYSIS OF MUTATIONS IN THE HYDROPHOBIC CORES OF BARNASE | 3.1.27 |
| 1BSD | CRYSTAL STRUCTURAL ANALYSIS OF MUTATIONS IN THE HYDROPHOBIC CORES OF BARNASE | 3.1.27 |
| 1BSE | CRYSTAL STRUCTURAL ANALYSIS OF MUTATIONS IN THE HYDROPHOBIC CORES OF BARNASE | 3.1.27 |
| 1BSG | BETA-LACTAMASE FROM STREPTOMYCES ALBUS G | 3.5.2.6 |
| 1BSI | HUMAN PANCREATIC ALPHA-AMYLASE FROM PICHIA PASTORIS, GLYCOSYLATED PROTEIN | 3.2.1.1 |
| 1BSJ | COBALT DEFORMYLASE INHIBITOR COMPLEX FROM E.COLI | 3.5.1.27 3.5.1.88 |
| 1BSK | ZINC DEFORMYLASE INHIBITOR COMPLEX FROM E.COLI | 3.5.1.27 3.5.1.88 |
| 1BSS | ECORV-T93A/DNA/CA2+ | 3.1.21.4 |
| 1BSU | STRUCTURAL AND ENERGETIC ORIGINS OF INDIRECT READOUT IN SITE-SPECIFIC DNA CLEAVAGE BY A RESTRICTION ENDONUCLEASE | 3.1.21.4 |
| 1BSW | ACUTOLYSIN A FROM SNAKE VENOM OF AGKISTRODON ACUTUS AT PH 7.5 | 3.4.24 |
| 1BSZ | PEPTIDE DEFORMYLASE AS FE2+ CONTAINING FORM (NATIVE) IN COMPLEX WITH INHIBITOR POLYETHYLENE GLYCOL | 3.5.1.31 3.5.1.88 |
| 1BT5 | CRYSTAL STRUCTURE OF THE IMIPENEM INHIBITED TEM-1 BETA-LACTAMASE FROM ESCHERICHIA COLI | 3.5.2.6 |
| 1BT7 | THE SOLUTION NMR STRUCTURE OF THE N-TERMINAL PROTEASE DOMAIN OF THE HEPATITIS C VIRUS (HCV) NS3-PROTEIN, FROM BK STRAIN, 20 STRUCTURES | 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 2.7.7.48 |
| 1BTC | THREE-DIMENSIONAL STRUCTURE OF SOYBEAN BETA-AMYLASE DETERMINED AT 3.0 ANGSTROMS RESOLUTION: PRELIMINARY CHAIN TRACING OF THE COMPLEX WITH ALPHA-CYCLODEXTRIN | 3.2.1.2 |
| 1BTH | STRUCTURE OF THROMBIN COMPLEXED WITH BOVINE PANCREATIC TRYPSIN INHIBITOR | 3.4.21.5 |
| 1BTL | CRYSTAL STRUCTURE OF ESCHERICHIA COLI TEM1 BETA-LACTAMASE AT 1.8 ANGSTROMS RESOLUTION | 3.5.2.6 |
| 1BTP | UNIQUE BINDING OF A NOVEL SYNTHETIC INHIBITOR, N-[3-[4-[4-(AMIDINOPHENOXY)-CARBONYL]PHENYL]-2-METHYL-2-PROPENOYL]-N-ALLYLGLYCINE METHANESULFONATE TO BOVINE TRYPSIN, REVEALED BY THE CRYSTAL STRUCTURE OF THE COMPLEX | 3.4.21.4 |
| 1BTU | PORCINE PANCREATIC ELASTASE COMPLEXED WITH (3S, 4R)-1-TOLUENESULPHONYL-3-ETHYL-AZETIDIN-2-ONE-4-CARBOXYLIC ACID | 3.4.21.36 |
| 1BTW | EPISELECTION: NOVEL KI ~NANOMOLAR INHIBITORS OF SERINE PROTEASES SELECTED BY BINDING OR CHEMISTRY ON AN ENZYME SURFACE | 3.4.21.4 |
| 1BTX | EPISELECTION: NOVEL KI ~NANOMOLAR INHIBITORS OF SERINE PROTEASES SELECTED BY BINDING OR CHEMISTRY ON AN ENZYME SURFACE | 3.4.21.4 |
| 1BTY | CRYSTAL STRUCTURE OF BETA-TRYPSIN IN COMPLEX WITH BENZAMIDINE | 3.4.21.4 |
| 1BTZ | EPISELECTION: NOVEL KI ~NANOMOLAR INHIBITORS OF SERINE PROTEASES SELECTED BY BINDING OR CHEMISTRY ON AN ENZYME SURFACE | 3.4.21.4 |
| 1BU4 | RIBONUCLEASE 1 COMPLEX WITH 2'GMP | 3.1.27.3 4.6.1.24 |
| 1BU8 | RAT PANCREATIC LIPASE RELATED PROTEIN 2 | 3.1.1.3 3.1.1.26 |
| 1BUA | STRUCTURAL AND ENERGETIC ORIGINS OF INDIRECT READOUT IN SITE-SPECIFIC DNA CLEAVAGE BY A RESTRICTION ENDONUCLEASE | 3.1.21.4 |
| 1BUD | ACUTOLYSIN A FROM SNAKE VENOM OF AGKISTRODON ACUTUS AT PH 5.0 | 3.4.24 |
| 1BUE | NMC-A CARBAPENEMASE FROM ENTEROBACTER CLOACAE | 3.5.2.6 |
| 1BUI | STRUCTURE OF THE TERNARY MICROPLASMIN-STAPHYLOKINASE-MICROPLASMIN COMPLEX: A PROTEINASE-COFACTOR-SUBSTRATE COMPLEX IN ACTION | 3.4.21.7 |
| 1BUJ | STRUCTURE OF BINASE IN SOLUTION | 3.1.27 |
| 1BUL | 6ALPHA-(HYDROXYPROPYL)PENICILLANATE ACYLATED ON NMC-A BETA-LACTAMASE FROM ENTEROBACTER CLOACAE | 3.5.2.6 |
| 1BUN | STRUCTURE OF BETA2-BUNGAROTOXIN: POTASSIUM CHANNEL BINDING BY KUNITZ MODULES AND TARGETED PHOSPHOLIPASE ACTION | 3.1.1.4 |
| 1BUV | CRYSTAL STRUCTURE OF THE MT1-MMP-TIMP-2 COMPLEX | 3.4.24.80 |
| 1BV7 | COUNTERACTING HIV-1 PROTEASE DRUG RESISTANCE: STRUCTURAL ANALYSIS OF MUTANT PROTEASES COMPLEXED WITH XV638 AND SD146, CYCLIC UREA AMIDES WITH BROAD SPECIFICITIES | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BV9 | HIV-1 PROTEASE (I84V) COMPLEXED WITH XV638 OF DUPONT PHARMACEUTICALS | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BVE | HIV-1 PROTEASE-DMP323 COMPLEX IN SOLUTION, NMR, 28 STRUCTURES | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BVG | HIV-1 PROTEASE-DMP323 COMPLEX IN SOLUTION, NMR MINIMIZED AVERAGE STRUCTURE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BVH | SOLUTION STRUCTURE OF A LOW MOLECULAR WEIGHT PROTEIN TYROSINE PHOSPHATASE | 3.1.3.2 3.1.3.48 |
| 1BVI | RIBONUCLEASE T1 (WILDTYPE) COMPLEXED WITH 2'GMP | 3.1.27.3 4.6.1.24 |
| 1BVM | SOLUTION NMR STRUCTURE OF BOVINE PANCREATIC PHOSPHOLIPASE A2, 20 STRUCTURES | 3.1.1.4 |
| 1BVN | PIG PANCREATIC ALPHA-AMYLASE IN COMPLEX WITH THE PROTEINACEOUS INHIBITOR TENDAMISTAT | 3.2.1.1 |
| 1BVQ | THREE-DIMENSIONAL STRUCTURE OF 4-HYDROXYBENZOYL COA THIOESTERASE FROM PSEUDOMONAS SP. STRAIN CBS-3. | 3.8.1.6 3.1.2.23 |
| 1BVS | RUVA COMPLEXED TO A HOLLIDAY JUNCTION. | 3.6.4.12 |
| 1BVT | METALLO-BETA-LACTAMASE FROM BACILLUS CEREUS 569/H/9 | 3.5.2.6 |
| 1BVV | SUGAR RING DISTORTION IN THE GLYCOSYL-ENZYME INTERMEDIATE OF A FAMILY G/11 XYLANASE | 3.2.1.8 |
| 1BVW | CELLOBIOHYDROLASE II (CEL6A) FROM HUMICOLA INSOLENS | 3.2.1.91 |
| 1BVX | THE 1.8 A STRUCTURE OF GEL GROWN TETRAGONAL HEN EGG WHITE LYSOZYME | 3.2.1.17 |
| 1BVZ | ALPHA-AMYLASE II (TVAII) FROM THERMOACTINOMYCES VULGARIS R-47 | 3.2.1.135 |
| 1BWA | HIV-1 PROTEASE (V82F/I84V) DOUBLE MUTANT COMPLEXED WITH XV638 OF DUPONT PHARMACEUTICALS | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BWB | HIV-1 PROTEASE (V82F/I84V) DOUBLE MUTANT COMPLEXED WITH SD146 OF DUPONT PHARMACEUTICALS | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1BWH | THE 1.8 A STRUCTURE OF GROUND CONTROL GROWN TETRAGONAL HEN EGG WHITE LYSOZYME | 3.2.1.17 |
| 1BWI | THE 1.8 A STRUCTURE OF MICROBATCH OIL DROP GROWN TETRAGONAL HEN EGG WHITE LYSOZYME | 3.2.1.17 |
| 1BWJ | THE 1.8 A STRUCTURE OF MICROGRAVITY GROWN TETRAGONAL HEN EGG WHITE LYSOZYME | 3.2.1.17 |
| 1BWP | PROBING THE SUBSTRATE SPECIFICITY OF THE INTRACELLULAR BRAIN PLATELET-ACTIVATING FACTOR ACETYLHYDROLASE | 3.1.1.47 |
| 1BWQ | PROBING THE SUBSTRATE SPECIFICITY OF THE INTRACELLULAR BRAIN PLATELET-ACTIVATING FACTOR ACETYLHYDROLASE | 3.1.1.47 |
| 1BWR | PROBING THE SUBSTRATE SPECIFICITY OF THE INTRACELLULAR BRAIN PLATELET-ACTIVATING FACTOR ACETYLHYDROLASE | 3.1.1.47 |
| 1BXO | ACID PROTEINASE (PENICILLOPEPSIN) (E.C.3.4.23.20) COMPLEX WITH PHOSPHONATE INHIBITOR: METHYL CYCLO[(2S)-2-[[(1R)-1-(N-(L-N-(3-METHYLBUTANOYL)VALYL-L-ASPARTYL)AMINO)-3-METHYLBUT YL] HYDROXYPHOSPHINYLOXY]-3-(3-AMINOMETHYL) PHENYLPROPANOATE | 3.4.23.20 |
| 1BXQ | ACID PROTEINASE (PENICILLOPEPSIN) COMPLEX WITH PHOSPHONATE INHIBITOR. | 3.4.23.20 |
| 1BY8 | THE CRYSTAL STRUCTURE OF HUMAN PROCATHEPSIN K | 3.4.22.38 |
| 1BYA | CRYSTAL STRUCTURES OF SOYBEAN BETA-AMYLASE REACTED WITH BETA-MALTOSE AND MALTAL: ACTIVE SITE COMPONENTS AND THEIR APPARENT ROLE IN CATALYSIS | 3.2.1.2 |
| 1BYB | CRYSTAL STRUCTURES OF SOYBEAN BETA-AMYLASE REACTED WITH BETA-MALTOSE AND MALTAL: ACTIVE SITE COMPONENTS AND THEIR APPARENT ROLE IN CATALYSIS | 3.2.1.2 |
| 1BYC | CRYSTAL STRUCTURES OF SOYBEAN BETA-AMYLASE REACTED WITH BETA-MALTOSE AND MALTAL: ACTIVE SITE COMPONENTS AND THEIR APPARENT ROLE IN CATALYSIS | 3.2.1.2 |
| 1BYD | CRYSTAL STRUCTURES OF SOYBEAN BETA-AMYLASE REACTED WITH BETA-MALTOSE AND MALTAL: ACTIVE SITE COMPONENTS AND THEIR APPARENT ROLE IN CATALYSIS | 3.2.1.2 |
| 1BYH | MOLECULAR AND ACTIVE-SITE STRUCTURE OF A BACILLUS (1-3,1-4)-BETA-GLUCANASE | 3.2.1.73 |
| 1BZA | BETA-LACTAMASE TOHO-1 FROM ESCHERICHIA COLI TUH12191 | 3.5.2.6 |
| 1BZC | HUMAN PTP1B CATALYTIC DOMAIN COMPLEXED WITH TPI | 3.1.3.48 |
| 1BZH | CYCLIC PEPTIDE INHIBITOR OF HUMAN PTP1B | 3.1.3.48 |
| 1BZJ | HUMAN PTP1B COMPLEXED WITH TPICOOH | 3.1.3.48 |
| 1BZQ | COMPLEX OF A DROMEDARY SINGLE-DOMAIN VHH ANTIBODY FRAGMENT WITH RNASE A | 3.1.27.5 4.6.1.18 |
| 1BZS | CRYSTAL STRUCTURE OF MMP8 COMPLEXED WITH HMR2909 | 3.4.24.34 |
| 1BZX | THE CRYSTAL STRUCTURE OF ANIONIC SALMON TRYPSIN IN COMPLEX WITH BOVINE PANCREATIC TRYPSIN INHIBITOR | 3.4.21.4 |
| 1C0B | BOVINE PANCREATIC RIBONUCLEASE A DESICCATED FOR 2.5 DAYS | 3.1.27.5 4.6.1.18 |
| 1C0C | BOVINE PANCREATIC RIBONUCLEASE A DESICCATED FOR 4.0 DAYS | 3.1.27.5 4.6.1.18 |
| 1C0E | ACTIVE SITE S19A MUTANT OF BOVINE HEART PHOSPHOTYROSYL PHOSPHATASE | 3.1.3.2 3.1.3.48 |
| 1C0M | CRYSTAL STRUCTURE OF RSV TWO-DOMAIN INTEGRASE | 2.7.7.49 3.4.23 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1C0T | CRYSTAL STRUCTURE OF HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH BM+21.1326 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1C0U | CRYSTAL STRUCTURE OF HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH BM+50.0934 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1C10 | CRYSTAL STRUCTURE OF HEW LYSOZYME UNDER PRESSURE OF XENON (8 BAR) | 3.2.1.17 |
| 1C1A | CRYSTAL STRUCTURE OF RSV TWO-DOMAIN INTEGRASE | 2.7.7.49 3.4.23 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1C1B | CRYSTAL STRUCTURE OF HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH GCA-186 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1C1C | CRYSTAL STRUCTURE OF HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH TNK-6123 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1C1J | STRUCTURE OF CADMIUM-SUBSTITUTED PHOSPHOLIPASE A2 FROM AGKISTRONDON HALYS PALLAS AT 2.8 ANGSTROMS RESOLUTION | 3.1.1.4 |
| 1C1M | PORCINE ELASTASE UNDER XENON PRESSURE (8 BAR) | 3.4.21.36 |
| 1C1N | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C1O | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C1P | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C1Q | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C1R | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C1S | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C1T | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C1U | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.5 |
| 1C1V | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.5 |
| 1C1W | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.5 |
| 1C1Y | CRYSTAL STRUCTURE OF RAP.GMPPNP IN COMPLEX WITH THE RAS-BINDING-DOMAIN OF C-RAF1 KINASE (RAFRBD). | 3.6.5.2 |
| 1C21 | E. COLI METHIONINE AMINOPEPTIDASE: METHIONINE COMPLEX | 3.4.11.18 |
| 1C22 | E. COLI METHIONINE AMINOPEPTIDASE: TRIFLUOROMETHIONINE COMPLEX | 3.4.11.18 |
| 1C23 | E. COLI METHIONINE AMINOPEPTIDASE: METHIONINE PHOSPHONATE COMPLEX | 3.4.11.18 |
| 1C24 | E. COLI METHIONINE AMINOPEPTIDASE: METHIONINE PHOSPHINATE COMPLEX | 3.4.11.18 |
| 1C25 | HUMAN CDC25A CATALYTIC DOMAIN | 3.1.3.48 |
| 1C27 | E. COLI METHIONINE AMINOPEPTIDASE:NORLEUCINE PHOSPHONATE COMPLEX | 3.4.11.18 |
| 1C2B | ELECTROPHORUS ELECTRICUS ACETYLCHOLINESTERASE | 3.1.1.7 |
| 1C2D | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C2E | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C2F | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C2G | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C2H | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C2I | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C2J | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C2K | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C2L | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C2M | RECRUITING ZINC TO MEDIATE POTENT, SPECIFIC INHIBITION OF SERINE PROTEASES | 3.4.21.4 |
| 1C2P | HEPATITIS C VIRUS NS5B RNA-DEPENDENT RNA POLYMERASE | 2.7.7.48 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 |
| 1C3B | AMPC BETA-LACTAMASE FROM E. COLI COMPLEXED WITH INHIBITOR, BENZO(B)THIOPHENE-2-BORONIC ACID (BZB) | 3.5.2.6 |
| 1C3F | ENDO-BETA-N-ACETYLGLUCOSAMINIDASE H, D130N MUTANT | 3.2.1.96 |
| 1C3I | HUMAN STROMELYSIN-1 CATALYTIC DOMAIN COMPLEXED WITH RO-26-2812 | 3.4.24.17 |
| 1C3L | SUBTILISIN-CARLSBERG COMPLEXED WITH XENON (8 BAR) | 3.4.21.62 |
| 1C43 | MUTANT HUMAN LYSOZYME WITH FOREIGN N-TERMINAL RESIDUES | 3.2.1.17 |
| 1C45 | MUTANT HUMAN LYSOZYME WITH FOREIGN N-TERMINAL RESIDUES | 3.2.1.17 |
| 1C46 | MUTANT HUMAN LYSOZYME WITH FOREIGN N-TERMINAL RESIDUES | 3.2.1.17 |
| 1C4U | SELECTIVE NON ELECTROPHILIC THROMBIN INHIBITORS WITH CYCLOHEXYL MOIETIES. | 3.4.21.5 |
| 1C4V | SELECTIVE NON ELECTROPHILIC THROMBIN INHIBITORS WITH CYCLOHEXYL MOIETIES. | 3.4.21.5 |
| 1C4X | 2-HYDROXY-6-OXO-6-PHENYLHEXA-2,4-DIENOATE HYDROLASE (BPHD) FROM RHODOCOCCUS SP. STRAIN RHA1 | 3.7.1.8 |
| 1C4Y | SELECTIVE NON-ELECTROPHILIC THROMBIN INHIBITORS | 3.4.21.5 |
| 1C54 | SOLUTION STRUCTURE OF RIBONUCLEASE SA | 3.1.27.3 4.6.1.24 |
| 1C5H | HYDROGEN BONDING AND CATALYSIS: AN UNEXPECTED EXPLANATION FOR HOW A SINGLE AMINO ACID SUBSTITUTION CAN CHANGE THE PH OPTIMUM OF A GLYCOSIDASE | 3.2.1.8 |
| 1C5I | HYDROGEN BONDING AND CATALYSIS: AN UNEXPECTED EXPLANATION FOR HOW A SINGLE AMINO ACID SUBSTITUTION CAN CHANGE THE PH OPTIMUM OF A GLYCOSIDASE | 3.2.1.8 |
| 1C5L | STRUCTURAL BASIS FOR SELECTIVITY OF A SMALL MOLECULE, S1-BINDING, SUB-MICROMOLAR INHIBITOR OF UROKINASE TYPE PLASMINOGEN ACTIVATOR | 3.4.21.5 |
| 1C5M | STRUCTURAL BASIS FOR SELECTIVITY OF A SMALL MOLECULE, S1-BINDING, SUB-MICROMOLAR INHIBITOR OF UROKINASE TYPE PLASMINOGEN ACTIVATOR | 3.4.21.6 |
| 1C5N | STRUCTURAL BASIS FOR SELECTIVITY OF A SMALL MOLECULE, S1-BINDING, SUB-MICROMOLAR INHIBITOR OF UROKINASE TYPE PLASMINOGEN ACTIVATOR | 3.4.21.5 |
| 1C5O | STRUCTURAL BASIS FOR SELECTIVITY OF A SMALL MOLECULE, S1-BINDING, SUB-MICROMOLAR INHIBITOR OF UROKINASE TYPE PLASMINOGEN ACTIVATOR | 3.4.21.5 |
| 1C5P | STRUCTURAL BASIS FOR SELECTIVITY OF A SMALL MOLECULE, S1-BINDING, SUB-MICROMOLAR INHIBITOR OF UROKINASE TYPE PLASMINOGEN ACTIVATOR | 3.4.21.4 |
| 1C5Q | STRUCTURAL BASIS FOR SELECTIVITY OF A SMALL MOLECULE, S1-BINDING, SUB-MICROMOLAR INHIBITOR OF UROKINASE TYPE PLASMINOGEN ACTIVATOR | 3.4.21.4 |
| 1C5R | STRUCTURAL BASIS FOR SELECTIVITY OF A SMALL MOLECULE, S1-BINDING, SUB-MICROMOLAR INHIBITOR OF UROKINASE TYPE PLASMINOGEN ACTIVATOR | 3.4.21.4 |
| 1C5S | STRUCTURAL BASIS FOR SELECTIVITY OF A SMALL MOLECULE, S1-BINDING, SUB-MICROMOLAR INHIBITOR OF UROKINASE TYPE PLASMINOGEN ACTIVATOR | 3.4.21.4 |
| 1C5T | STRUCTURAL BASIS FOR SELECTIVITY OF A SMALL MOLECULE, S1-BINDING, SUB-MICROMOLAR INHIBITOR OF UROKINASE TYPE PLASMINOGEN ACTIVATOR | 3.4.21.4 |
| 1C5U | STRUCTURAL BASIS FOR SELECTIVITY OF A SMALL MOLECULE, S1-BINDING, SUB-MICROMOLAR INHIBITOR OF UROKINASE TYPE PLASMINOGEN ACTIVATOR | 3.4.21.4 |
| 1C5V | STRUCTURAL BASIS FOR SELECTIVITY OF A SMALL MOLECULE, S1-BINDING, SUB-MICROMOLAR INHIBITOR OF UROKINASE TYPE PLASMINOGEN ACTIVATOR | 3.4.21.4 |
| 1C5W | STRUCTURAL BASIS FOR SELECTIVITY OF A SMALL MOLECULE, S1-BINDING, SUB-MICROMOLAR INHIBITOR OF UROKINASE TYPE PLASMINOGEN ACTIVATOR | 3.4.21.73 |
| 1C5X | STRUCTURAL BASIS FOR SELECTIVITY OF A SMALL MOLECULE, S1-BINDING, SUB-MICROMOLAR INHIBITOR OF UROKINASE TYPE PLASMINOGEN ACTIVATOR | 3.4.21.73 |
| 1C5Y | STRUCTURAL BASIS FOR SELECTIVITY OF A SMALL MOLECULE, S1-BINDING, SUB-MICROMOLAR INHIBITOR OF UROKINASE TYPE PLASMINOGEN ACTIVATOR | 3.4.21.73 |
| 1C5Z | STRUCTURAL BASIS FOR SELECTIVITY OF A SMALL MOLECULE, S1-BINDING, SUB-MICROMOLAR INHIBITOR OF UROKINASE TYPE PLASMINOGEN ACTIVATOR | 3.4.21.73 |
| 1C60 | T4 LYSOZYME MUTANT C54T/C97A/F153A IN THE PRESENCE OF 8 ATM ARGON | 3.2.1.17 |
| 1C61 | T4 LYSOZYME MUTANT C54T/C97A/F153A IN THE PRESENCE OF 8 ATM KRYPTON | 3.2.1.17 |
| 1C62 | T4 LYSOZYME MUTANT C54T/C97A/F153A IN THE PRESENCE OF 8 ATM XENON | 3.2.1.17 |
| 1C63 | T4 LYSOZYME MUTANT C54T/C97A/L121A IN THE PRESENCE OF 8 ATM ARGON | 3.2.1.17 |
| 1C64 | T4 LYSOZYME MUTANT C54T/C97A/L121A IN THE PRESENCE OF 8 ATM KRYPTON | 3.2.1.17 |
| 1C65 | T4 LYSOZYME MUTANT C54T/C97A/L121A IN THE PRESENCE OF 8 ATM XENON | 3.2.1.17 |
| 1C66 | T4 LYSOZYME MUTANT C54T/C97A/L121A/L133A IN THE PRESENCE OF 8 ATM ARGON | 3.2.1.17 |
| 1C67 | T4 LYSOZYME MUTANT C54T/C97A/L121A/L133A IN THE PRESENCE OF 8 ATM KRYPTON | 3.2.1.17 |
| 1C68 | T4 LYSOZYME MUTANT C54T/C97A/L121A/L133A IN THE PRESENCE OF 8 ATM XENON | 3.2.1.17 |
| 1C69 | T4 LYSOZYME MUTANT C54T/C97A/L133A IN THE PRESENCE OF 8 ATM ARGON | 3.2.1.17 |
| 1C6A | T4 LYSOZYME MUTANT C54T/C97A/L133A IN THE PRESENCE OF 8 ATM KRYPTON | 3.2.1.17 |
| 1C6B | T4 LYSOZYME MUTANT C54T/C97A/L133A IN THE PRESENCE OF 8 ATM XENON | 3.2.1.17 |
| 1C6C | T4 LYSOZYME MUTANT C54T/C97A/L99A IN THE PRESENCE OF 16 ATM ARGON | 3.2.1.17 |
| 1C6D | T4 LYSOZYME MUTANT C54T/C97A/L99A IN THE PRESENCE OF 16 ATM KRYPTON | 3.2.1.17 |
| 1C6E | T4 LYSOZYME MUTANT C54T/C97A/L99A IN THE PRESENCE OF 2 ATM XENON | 3.2.1.17 |
| 1C6F | T4 LYSOZYME MUTANT C54T/C97A/L99A IN THE PRESENCE OF 32 ATM ARGON | 3.2.1.17 |
| 1C6G | T4 LYSOZYME MUTANT C54T/C97A/L99A IN THE PRESENCE OF 4 ATM KRYPTON | 3.2.1.17 |
| 1C6H | T4 LYSOZYME MUTANT C54T/C97A/L99A IN THE PRESENCE OF 4 ATM XENON | 3.2.1.17 |
| 1C6I | T4 LYSOZYME MUTANT C54T/C97A/L99A IN THE PRESENCE OF 8 ATM ARGON | 3.2.1.17 |
| 1C6J | T4 LYSOZYME MUTANT C54T/C97A/L99A IN THE PRESENCE OF 8 ATM KRYPTON | 3.2.1.17 |
| 1C6K | T4 LYSOZYME MUTANT C54T/C97A/L99A IN THE PRESENCE OF 8 ATM XENON | 3.2.1.17 |
| 1C6L | T4 LYSOZYME MUTANT C54T/C97A/L99A/F153A IN THE PRESENCE OF 8 ATM ARGON | 3.2.1.17 |
| 1C6M | T4 LYSOZYME MUTANT C54T/C97A/L99A/F153A IN THE PRESENCE OF 8 ATM KRYPTON | 3.2.1.17 |
| 1C6N | T4 LYSOZYME MUTANT C54T/C97A/L99A/F153A IN THE PRESENCE OF 8 ATM XENON | 3.2.1.17 |
| 1C6P | T4 LYSOZYME MUTANT C54T/C97A IN THE PRESENCE OF 8 ATM ARGON | 3.2.1.17 |
| 1C6Q | T4 LYSOZYME MUTANT C54T/C97A IN THE PRESENCE OF 8 ATM KRYPTON | 3.2.1.17 |
| 1C6T | T4 LYSOZYME MUTANT C54T/C97A IN THE PRESENCE OF 8 ATM XENON | 3.2.1.17 |
| 1C6V | SIV INTEGRASE (CATALYTIC DOMAIN + DNA BIDING DOMAIN COMPRISING RESIDUES 50-293) MUTANT WITH PHE 185 REPLACED BY HIS (F185H) | 2.7.7.49 3.1.13.2 3.1.26.13 |
| 1C6X | ALTERNATE BINDING SITE FOR THE P1-P3 GROUP OF A CLASS OF POTENT HIV-1 PROTEASE INHIBITORS AS A RESULT OF CONCERTED STRUCTURAL CHANGE IN 80'S LOOP. | 3.4.24 |
| 1C6Y | ALTERNATE BINDING SITE FOR THE P1-P3 GROUP OF A CLASS OF POTENT HIV-1 PROTEASE INHIBITORS AS A RESULT OF CONCERTED STRUCTURAL CHANGE IN 80'S LOOP. | 3.4.24 |
| 1C6Z | ALTERNATE BINDING SITE FOR THE P1-P3 GROUP OF A CLASS OF POTENT HIV-1 PROTEASE INHIBITORS AS A RESULT OF CONCERTED STRUCTURAL CHANGE IN 80'S LOOP. | 3.4.24 |
| 1C70 | ALTERNATE BINDING SITE FOR THE P1-P3 GROUP OF A CLASS OF POTENT HIV-1 PROTEASE INHIBITORS AS A RESULT OF CONCERTED STRUCTURAL CHANGE IN 80'S LOOP. | 3.4.23 |
| 1C74 | STRUCTURE OF THE DOUBLE MUTANT (K53,56M) OF PHOSPHOLIPASE A2 | 3.1.1.4 |
| 1C76 | STAPHYLOKINASE (SAK) MONOMER | 3.4.24.29 |
| 1C77 | STAPHYLOKINASE (SAK) DIMER | 3.4.24.29 |
| 1C78 | STAPHYLOKINASE (SAK) DIMER | 3.4.24.29 |
| 1C79 | STAPHYLOKINASE (SAK) DIMER | 3.4.24.29 |
| 1C7I | THERMOPHYLIC PNB ESTERASE | 3.1.1 |
| 1C7J | PNB ESTERASE 56C8 | 3.1.1 |
| 1C7K | CRYSTAL STRUCTURE OF THE ZINC PROTEASE | 3.4.24 3.4.24.77 |
| 1C7P | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME WITH FOUR EXTRA RESIDUES (EAEA) AT THE N-TERMINAL | 3.2.1.17 |
| 1C7S | BETA-N-ACETYLHEXOSAMINIDASE MUTANT D539A COMPLEXED WITH DI-N-ACETYL-BETA-D-GLUCOSAMINE (CHITOBIASE) | 3.2.1.52 |
| 1C7T | BETA-N-ACETYLHEXOSAMINIDASE MUTANT E540D COMPLEXED WITH DI-N ACETYL-D-GLUCOSAMINE (CHITOBIASE) | 3.2.1.52 |
| 1C7Y | E.COLI RUVA-HOLLIDAY JUNCTION COMPLEX | 3.6.4.12 |
| 1C7Z | REGULATORY COMPLEX OF FRUCTOSE-2,6-BISPHOSPHATASE | 3.1.3.46 2.7.1.105 |
| 1C80 | REGULATORY COMPLEX OF FRUCTOSE-2,6-BISPHOSPHATASE | 3.1.3.46 2.7.1.105 |
| 1C81 | MICHAELIS COMPLEX OF FRUCTOSE-2,6-BISPHOSPHATASE | 3.1.3.46 2.7.1.105 |
| 1C83 | CRYSTAL STRUCTURE OF PROTEIN TYROSINE PHOSPHATASE 1B COMPLEXED WITH 6-(OXALYL-AMINO)-1H-INDOLE-5-CARBOXYLIC ACID | 3.1.3.48 |
| 1C84 | CRYSTAL STRUCTURE OF PROTEIN TYROSINE PHOSPHATASE 1B COMPLEXED WITH 3-(OXALYL-AMINO)-NAPHTHALENE-2-CARBOXLIC ACID | 3.1.3.48 |
| 1C85 | CRYSTAL STRUCTURE OF PROTEIN TYROSINE PHOSPHATASE 1B COMPLEXED WITH 2-(OXALYL-AMINO)-BENZOIC ACID | 3.1.3.48 |
| 1C86 | CRYSTAL STRUCTURE OF PROTEIN TYROSINE PHOSPHATASE 1B (R47V,D48N) COMPLEXED WITH 2-(OXALYL-AMINO-4,7-DIHYDRO-5H-THIENO[2,3-C]PYRAN-3-CARBOXYLIC ACID | 3.1.3.48 |
| 1C87 | CRYSTAL STRUCTURE OF PROTEIN TYROSINE PHOSPHATASE 1B COMPLEXED WITH 2-(OXALYL-AMINO-4,7-DIHYDRO-5H-THIENO[2,3-C]PYRAN-3-CARBOXYLIC ACID | 3.1.3.48 |
| 1C88 | CRYSTAL STRUCTURE OF PROTEIN TYROSINE PHOSPHATASE 1B COMPLEXED WITH 2-(OXALYL-AMINO)-4,5,6,7-TETRAHYDRO-THIENO[2,3-C]PYRIDINE-3-CARBOXYLIC ACID | 3.1.3.48 |
| 1C8B | CRYSTAL STRUCTURE OF A NOVEL GERMINATION PROTEASE FROM SPORES OF BACILLUS MEGATERIUM: STRUCTURAL REARRANGEMENTS AND ZYMOGEN ACTIVATION | 3.4.99 3.4.24.78 |
| 1C8M | REFINED CRYSTAL STRUCTURE OF HUMAN RHINOVIRUS 16 COMPLEXED WITH VP63843 (PLECONARIL), AN ANTI-PICORNAVIRAL DRUG CURRENTLY IN CLINICAL TRIALS | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1C8Q | STRUCTURE SOLUTION AND REFINEMENT OF THE RECOMBINANT HUMAN SALIVARY AMYLASE | 3.2.1.1 |
| 1C8T | HUMAN STROMELYSIN-1 (E202Q) CATALYTIC DOMAIN COMPLEXED WITH RO-26-2812 | 3.4.24.17 |
| 1C8U | CRYSTAL STRUCTURE OF THE E.COLI THIOESTERASE II, A HOMOLOGUE OF THE HUMAN NEF-BINDING ENZYME | 3.1.2 3.1.2.20 |
| 1C8X | ENDO-BETA-N-ACETYLGLUCOSAMINIDASE H, D130E MUTANT | 3.2.1.96 |
| 1C8Y | ENDO-BETA-N-ACETYLGLUCOSAMINIDASE H, D130A MUTANT | 3.2.1.96 |
| 1C90 | ENDO-BETA-N-ACETYLGLUCOSAMINIDASE H, E132Q MUTANT | 3.2.1.96 |
| 1C91 | ENDO-BETA-N-ACETYLGLUCOSAMINIDASE H, E132D | 3.2.1.96 |
| 1C92 | ENDO-BETA-N-ACETYLGLUCOSAMINIDASE H, E132A MUTANT | 3.2.1.96 |
| 1C93 | ENDO-BETA-N-ACETYLGLUCOSAMINIDASE H, D130N/E132Q DOUBLE MUTANT | 3.2.1.96 |
| 1C9F | NMR STRUCTURE OF THE CAD DOMAIN OF CASPASE-ACTIVATED DNASE | 3 |
| 1C9J | BACILLUS LENTUS SUBTILISIN K27R/N87S/V104Y/N123S/T274A VARIANT | 3.4.21.62 |
| 1C9M | BACILLUS LENTUS SUBTILSIN (SER 87) N76D/S103A/V104I | 3.4.21.62 |
| 1C9N | BACILLUS LENTUS SUBSTILISIN VARIANT (SER 87) K27R/V104Y/N123S/T274A | 3.4.21.62 |
| 1C9P | COMPLEX OF BDELLASTASIN WITH PORCINE TRYPSIN | 3.4.21.4 |
| 1C9T | COMPLEX OF BDELLASTASIN WITH BOVINE TRYPSIN | 3.4.21.4 |
| 1C9V | H12A VARIANT OF RIBONUCLEASE A | 3.1.27.5 4.6.1.18 |
| 1CA0 | BOVINE CHYMOTRYPSIN COMPLEXED TO APPI | 3.4.21.1 |
| 1CA1 | ALPHA-TOXIN FROM CLOSTRIDIUM PERFRINGENS | 3.1.4.3 |
| 1CA8 | THROMBIN INHIBITORS WITH RIGID TRIPEPTIDYL ALDEHYDES | 3.4.21.5 |
| 1CAQ | X-RAY STRUCTURE OF HUMAN STROMELYSIN CATALYTIC DOMAIN COMPLEXES WITH NON-PEPTIDE INHIBITORS: IMPLICATION FOR INHIBITOR SELECTIVITY | 3.4.24.17 |
| 1CB2 | CELLOBIOHYDROLASE II, CATALYTIC DOMAIN, MUTANT Y169F | 3.2.1.91 |
| 1CB5 | HUMAN BLEOMYCIN HYDROLASE. | 3.4.22 3.4.22.40 |
| 1CB6 | STRUCTURE OF HUMAN APOLACTOFERRIN AT 2.0 A RESOLUTION. | 3.4.21 |
| 1CBG | THE CRYSTAL STRUCTURE OF A CYANOGENIC BETA-GLUCOSIDASE FROM WHITE CLOVER (TRIFOLIUM REPENS L.), A FAMILY 1 GLYCOSYL-HYDROLASE | 3.2.1.21 |
| 1CBH | DETERMINATION OF THE THREE-DIMENSIONAL STRUCTURE OF THE C-TERMINAL DOMAIN OF CELLOBIOHYDROLASE I FROM TRICHODERMA REESEI. A STUDY USING NUCLEAR MAGNETIC RESONANCE AND HYBRID DISTANCE GEOMETRY-DYNAMICAL SIMULATED ANNEALING | 3.2.1.91 |
| 1CBW | BOVINE CHYMOTRYPSIN COMPLEXED TO BPTI | 3.4.21.1 |
| 1CBX | CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN CARBOXYPEPTIDASE A AND THE BIPRODUCT ANALOG INHIBITOR L-BENZYLSUCCINATE AT 2.0 ANGSTROMS RESOLUTION | 3.4.17.1 |
| 1CC0 | CRYSTAL STRUCTURE OF THE RHOA.GDP-RHOGDI COMPLEX | 3.6.5.2 |
| 1CCF | HOW AN EPIDERMAL GROWTH FACTOR (EGF)-LIKE DOMAIN BINDS CALCIUM-HIGH RESOLUTION NMR STRUCTURE OF THE CALCIUM FORM OF THE NH2-TERMINAL EGF-LIKE DOMAIN IN COAGULATION FACTOR X | 3.4.21.6 |
| 1CD5 | GLUCOSAMINE-6-PHOSPHATE DEAMINASE FROM E.COLI, T CONFORMER | 3.5.99.6 |
| 1CE2 | STRUCTURE OF DIFERRIC BUFFALO LACTOFERRIN AT 2.5A RESOLUTION | 3.4.21 |
| 1CE5 | BOVINE PANCREAS BETA-TRYPSIN IN COMPLEX WITH BENZAMIDINE | 3.4.21.4 |
| 1CE7 | MISTLETOE LECTIN I FROM VISCUM ALBUM | 3.2.2.22 |
| 1CEA | THE STRUCTURE OF THE NON-COVALENT COMPLEX OF RECOMBINANT KRINGLE 1 DOMAIN OF HUMAN PLASMINOGEN WITH EACA (EPSILON-AMINOCAPROIC ACID) | 3.4.21.7 |
| 1CEB | THE STRUCTURE OF THE NON-COVALENT COMPLEX OF RECOMBINANT KRINGLE 1 DOMAIN OF HUMAN PLASMINOGEN WITH AMCHA (TRANS-4-AMINOMETHYLCYCLOHEXANE-1-CARBOXYLIC ACID) | 3.4.21.7 |
| 1CEC | A COMMON PROTEIN FOLD AND SIMILAR ACTIVE SITE IN TWO DISTINCT FAMILIES OF BETA-GLYCANASES | 3.2.1.4 |
| 1CEE | SOLUTION STRUCTURE OF CDC42 IN COMPLEX WITH THE GTPASE BINDING DOMAIN OF WASP | 3.6.5.2 |
| 1CEF | CEFOTAXIME COMPLEXED WITH THE STREPTOMYCES R61 DD-PEPTIDASE | 3.4.16.4 |
| 1CEG | CEPHALOTHIN COMPLEXED WITH DD-PEPTIDASE | 3.4.16.4 |
| 1CEH | STRUCTURE AND FUNCTION OF THE CATALYTIC SITE MUTANT ASP99ASN OF PHOSPHOLIPASE A2: ABSENCE OF CONSERVED STRUCTURAL WATER | 3.1.1.4 |
| 1CEL | THE THREE-DIMENSIONAL CRYSTAL STRUCTURE OF THE CATALYTIC CORE OF CELLOBIOHYDROLASE I FROM TRICHODERMA REESEI | 3.2.1.91 |
| 1CEM | ENDOGLUCANASE A (CELA) CATALYTIC CORE, RESIDUES 33-395 | 3.2.1.4 |
| 1CEN | CELLULASE (CELC) MUTANT WITH GLU 140 REPLACED BY GLN COMPLEXED WITH CELLOHEXAOSE | 3.2.1.4 |
| 1CEO | CELLULASE (CELC) MUTANT WITH GLU 140 REPLACED BY GLN | 3.2.1.4 |
| 1CEV | ARGINASE FROM BACILLUS CALDOVELOX, NATIVE STRUCTURE AT PH 5.6 | 3.5.3.1 |
| 1CEX | STRUCTURE OF CUTINASE | 3.1.1 3.1.1.74 |
| 1CF4 | CDC42/ACK GTPASE-BINDING DOMAIN COMPLEX | 3.6.5.2 |
| 1CF5 | BETA-MOMORCHARIN STRUCTURE AT 2.55 A | 3.2.2.22 |
| 1CFH | STRUCTURE OF THE METAL-FREE GAMMA-CARBOXYGLUTAMIC ACID-RICH MEMBRANE BINDING REGION OF FACTOR IX BY TWO-DIMENSIONAL NMR SPECTROSCOPY | 3.4.21.22 |
| 1CFI | NMR STRUCTURE OF CALCIUM ION-BOUND GAMMA-CARBOXY-GLUTAMIC ACID-RICH DOMAIN OF FACTOR IX | 3.4.21.22 |
| 1CFJ | METHYLPHOSPHONYLATED ACETYLCHOLINESTERASE (AGED) OBTAINED BY REACTION WITH O-ISOPROPYLMETHYLPHOSPHONOFLUORIDATE (GB, SARIN) | 3.1.1.7 |
| 1CFR | CRYSTAL STRUCTURE OF CITROBACTER FREUNDII RESTRICTION ENDONUCLEASE CFR10I AT 2.15 ANGSTROMS RESOLUTION. | 3.1.21.4 |
| 1CFZ | HYDROGENASE MATURATING ENDOPEPTIDASE HYBD FROM E. COLI | 3.4 3.4.23 |
| 1CG2 | CARBOXYPEPTIDASE G2 | 3.4.17.11 |
| 1CGE | CRYSTAL STRUCTURES OF RECOMBINANT 19-KDA HUMAN FIBROBLAST COLLAGENASE COMPLEXED TO ITSELF | 3.4.24.7 |
| 1CGF | CRYSTAL STRUCTURES OF RECOMBINANT 19-KDA HUMAN FIBROBLAST COLLAGENASE COMPLEXED TO ITSELF | 3.4.24.7 |
| 1CGH | HUMAN CATHEPSIN G | 3.4.21.20 |
| 1CGI | THREE-DIMENSIONAL STRUCTURE OF THE COMPLEXES BETWEEN BOVINE CHYMOTRYPSINOGEN*A AND TWO RECOMBINANT VARIANTS OF HUMAN PANCREATIC SECRETORY TRYPSIN INHIBITOR (KAZAL-TYPE) | 3.4.21.1 |
| 1CGJ | THREE-DIMENSIONAL STRUCTURE OF THE COMPLEXES BETWEEN BOVINE CHYMOTRYPSINOGEN*A AND TWO RECOMBINANT VARIANTS OF HUMAN PANCREATIC SECRETORY TRYPSIN INHIBITOR (KAZAL-TYPE) | 3.4.21.1 |
| 1CGL | STRUCTURE OF THE CATALYTIC DOMAIN OF FIBROBLAST COLLAGENASE COMPLEXED WITH AN INHIBITOR | 3.4.24.7 |
| 1CH0 | RNASE T1 VARIANT WITH ALTERED GUANINE BINDING SEGMENT | 3.1.27.3 4.6.1.24 |
| 1CHD | CHEB METHYLESTERASE DOMAIN | 3.1.1.61 3.5.1.44 |
| 1CHG | CHYMOTRYPSINOGEN,2.5 ANGSTROMS CRYSTAL STRUCTURE, COMPARISON WITH ALPHA-CHYMOTRYPSIN,AND IMPLICATIONS FOR ZYMOGEN ACTIVATION | 3.4.21.1 |
| 1CHK | STREPTOMYCES N174 CHITOSANASE PH5.5 298K | 3.2.1.132 |
| 1CHM | ENZYMATIC MECHANISM OF CREATINE AMIDINOHYDROLASE AS DEDUCED FROM CRYSTAL STRUCTURES | 3.5.3.3 |
| 1CHO | CRYSTAL AND MOLECULAR STRUCTURES OF THE COMPLEX OF ALPHA-*CHYMOTRYPSIN WITH ITS INHIBITOR TURKEY OVOMUCOID THIRD DOMAIN AT 1.8 ANGSTROMS RESOLUTION | 3.4.21.1 |
| 1CI8 | ESTERASE ESTB FROM BURKHOLDERIA GLADIOLI: AN ESTERASE WITH (BETA)-LACTAMASE FOLD. | 3.1.1.1 3.1.1 |
| 1CI9 | DFP-INHIBITED ESTERASE ESTB FROM BURKHOLDERIA GLADIOLI | 3.1.1.1 3.1.1 |
| 1CIJ | HALOALKANE DEHALOGENASE SOAKED WITH HIGH CONCENTRATION OF BROMIDE | 3.8.1.5 |
| 1CIZ | X-RAY STRUCTURE OF HUMAN STROMELYSIN CATALYTIC DOMAIN COMPLEXES WITH NON-PEPTIDE INHIBITORS: IMPLICATION FOR INHIBITOR SELECTIVITY | 3.4.24.17 |
| 1CJ6 | T11A MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1CJ7 | T11V MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1CJ8 | T40A MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1CJ9 | T40V MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1CJL | CRYSTAL STRUCTURE OF A CYSTEINE PROTEASE PROFORM | 3.4.22.15 |
| 1CJY | HUMAN CYTOSOLIC PHOSPHOLIPASE A2 | 3.1.1.4 3.1.1.5 |
| 1CK3 | N276D MUTANT OF ESCHERICHIA COLI TEM-1 BETA-LACTAMASE | 3.5.2.6 |
| 1CK7 | GELATINASE A (FULL-LENGTH) | 3.4.24.24 |
| 1CKC | T43A MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1CKD | T43V MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1CKF | T52A MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1CKG | T52V MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1CKH | T70V MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1CKQ | PRE-TRANSITION STATE ECO RI ENDONUCLEASE/COGNATE DNA (TCGCGAATTCGCG) COMPLEX | 3.1.21.4 |
| 1CL5 | CRYSTAL STRUCTURE OF PHOSPHOLIPASE A2 FROM DABOIA RUSSELLI PULCHELLA | 3.1.1.4 |
| 1CL8 | A PRE-TRANSITION STATE ECO RI ENDONUCLEASE/COGNATE DNA (TCGCGAPTTCGCG) COMPLEX WITH DNA BASE ANALOG PURINE (P) | 3.1.21.4 |
| 1CLC | THREE-DIMENSIONAL STRUCTURE OF ENDOGLUCANASE D AT 1.9 ANGSTROMS RESOLUTION | 3.2.1.4 |
| 1CLE | STRUCTURE OF UNCOMPLEXED AND LINOLEATE-BOUND CANDIDA CYLINDRACEA CHOLESTEROL ESTERASE | 3.1.1.3 |
| 1CLP | CRYSTAL STRUCTURE OF A CALCIUM-INDEPENDENT PHOSPHOLIPASELIKE MYOTOXIC PROTEIN FROM BOTHROPS ASPER VENOM | 3.1.1.4 |
| 1CLQ | CRYSTAL STRUCTURE OF A REPLICATION FORK DNA POLYMERASE EDITING COMPLEX AT 2.7 A RESOLUTION | 2.7.7.7 3.1.11 |
| 1CLU | H-RAS COMPLEXED WITH DIAMINOBENZOPHENONE-BETA,GAMMA-IMIDO-GTP | 3.6.5.2 |
| 1CLV | YELLOW MEAL WORM ALPHA-AMYLASE IN COMPLEX WITH THE AMARANTH ALPHA-AMYLASE INHIBITOR | 3.2.1.1 |
| 1CLW | TAILSPIKE PROTEIN FROM PHAGE P22, V331A MUTANT | 3.2.1 |
| 1CLX | CATALYTIC CORE OF XYLANASE A | 3.2.1.8 |
| 1CMS | THE THREE-DIMENSIONAL STRUCTURE OF RECOMBINANT BOVINE CHYMOSIN AT 2.3 ANGSTROMS RESOLUTION | 3.4.23.4 |
| 1CMV | HUMAN CYTOMEGALOVIRUS PROTEASE | 3.4.21 3.4.21.97 |
| 1CMX | STRUCTURAL BASIS FOR THE SPECIFICITY OF UBIQUITIN C-TERMINAL HYDROLASES | 3.1.2.15 |
| 1CNM | ENHANCEMENT OF CATALYTIC EFFICIENCY OF PROTEINASE K THROUGH EXPOSURE TO ANHYDROUS ORGANIC SOLVENT AT 70 DEGREES CELSIUS | 3.4.21.64 |
| 1CNQ | FRUCTOSE-1,6-BISPHOSPHATASE COMPLEXED WITH FRUCTOSE-6-PHOSPHATE AND ZINC IONS | 3.1.3.11 |
| 1CNS | CRYSTAL STRUCTURE OF CHITINASE AT 1.91A RESOLUTION | 3.2.1.14 |
| 1COV | COXSACKIEVIRUS B3 COAT PROTEIN | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1CP3 | CRYSTAL STRUCTURE OF THE COMPLEX OF APOPAIN WITH THE TETRAPEPTIDE INHIBITOR ACE-DVAD-FMC | 3.4.22 3.4.22.56 |
| 1CP6 | 1-BUTANEBORONIC ACID BINDING TO AEROMONAS PROTEOLYTICA AMINOPEPTIDASE | 3.4.11.10 |
| 1CP7 | AMINOPEPTIDASE FROM STREPTOMYCES GRISEUS | 3.4.11 3.4.11.24 |
| 1CPB | STRUCTURE OF CARBOXYPEPTIDASE B AT 2.8 ANGSTROMS RESOLUTION | 3.4.17.2 |
| 1CPJ | CRYSTAL STRUCTURES OF RECOMBINANT RAT CATHEPSIN B AND A CATHEPSIN B-INHIBITOR COMPLEX: IMPLICATIONS FOR STRUCTURE-BASED INHIBITOR DESIGN | 3.4.22.1 |
| 1CPM | NATIVE-LIKE IN VIVO FOLDING OF A CIRCULARLY PERMUTED JELLYROLL PROTEIN SHOWN BY CRYSTAL STRUCTURE ANALYSIS | 3.2.1.73 |
| 1CPN | NATIVE-LIKE IN VIVO FOLDING OF A CIRCULARLY PERMUTED JELLYROLL PROTEIN SHOWN BY CRYSTAL STRUCTURE ANALYSIS | 3.2.1.73 |
| 1CPS | STRUCTURAL COMPARISON OF SULFODIIMINE AND SULFONAMIDE INHIBITORS IN THEIR COMPLEXES WITH ZINC ENZYMES | 3.4.17.1 |
| 1CPU | SUBSITE MAPPING OF THE ACTIVE SITE OF HUMAN PANCREATIC ALPHA-AMYLASE USING SUBSTRATES, THE PHARMACOLOGICAL INHIBITOR ACARBOSE, AND AN ACTIVE SITE VARIANT | 3.2.1.1 |
| 1CPX | BETA FORM OF CARBOXYPEPTIDASE A (RESIDUES 3-307) FROM BOVINE PANCREAS IN AN ORTHORHOMBIC CRYSTAL FORM WITH TWO ZINC IONS IN THE ACTIVE SITE. | 3.4.17.1 |
| 1CPY | SITE-DIRECTED MUTAGENESIS ON (SERINE) CARBOXYPEPTIDASE Y FROM YEAST. THE SIGNIFICANCE OF THR 60 AND MET 398 IN HYDROLYSIS AND AMINOLYSIS REACTIONS | 3.4.16.5 |
| 1CQD | THE 2.1 ANGSTROM STRUCTURE OF A CYSTEINE PROTEASE WITH PROLINE SPECIFICITY FROM GINGER RHIZOME, ZINGIBER OFFICINALE | 3.4.22.67 |
| 1CQQ | TYPE 2 RHINOVIRUS 3C PROTEASE WITH AG7088 INHIBITOR | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1CQR | CRYSTAL STRUCTURE OF THE STROMELYSIN CATALYTIC DOMAIN AT 2.0 A RESOLUTION | 3.4.24.17 |
| 1CQW | NAI COCRYSTALLISED WITH HALOALKANE DEHALOGENASE FROM A RHODOCOCCUS SPECIES | 3.8.1.5 |
| 1CQY | STARCH BINDING DOMAIN OF BACILLUS CEREUS BETA-AMYLASE | 3.2.1.2 |
| 1CR0 | CRYSTAL STRUCTURE OF THE HELICASE DOMAIN OF THE GENE4 PROTEIN OF BACTERIOPHAGE T7 | 2.7.7 3.6.4.12 |
| 1CR1 | CRYSTAL STRUCTURE OF THE HELICASE DOMAIN OF THE GENE 4 PROTEIN OF BACTERIOPHAGE T7: COMPLEX WITH DTTP | 2.7.7 3.6.4.12 |
| 1CR2 | CRYSTAL STRUCTURE OF THE HELICASE DOMAIN OF THE GENE 4 PROTEIN OF BACTERIOPHAGE T7: COMPLEX WITH DATP | 2.7.7 3.6.4.12 |
| 1CR4 | CRYSTAL STRUCTURE OF THE HELICASE DOMAIN OF THE GENE 4 PROTEIN OF BACTERIOPHAGE T7: COMPLEX WITH DTDP | 2.7.7 3.6.4.12 |
| 1CRL | INSIGHTS INTO INTERFACIAL ACTIVATION FROM AN 'OPEN' STRUCTURE OF CANDIDA RUGOSA LIPASE | 3.1.1.3 |
| 1CRP | THE SOLUTION STRUCTURE AND DYNAMICS OF RAS P21. GDP DETERMINED BY HETERONUCLEAR THREE AND FOUR DIMENSIONAL NMR SPECTROSCOPY | 3.6.5.2 |
| 1CRQ | THE SOLUTION STRUCTURE AND DYNAMICS OF RAS P21. GDP DETERMINED BY HETERONUCLEAR THREE AND FOUR DIMENSIONAL NMR SPECTROSCOPY | 3.6.5.2 |
| 1CS8 | CRYSTAL STRUCTURE OF PROCATHEPSIN L | 3.4.22.15 |
| 1CSB | CRYSTAL STRUCTURE OF CATHEPSIN B INHIBITED WITH CA030 AT 2.1 ANGSTROMS RESOLUTION: A BASIS FOR THE DESIGN OF SPECIFIC EPOXYSUCCINYL INHIBITORS | 3.4.22.1 |
| 1CSE | THE HIGH-RESOLUTION X-RAY CRYSTAL STRUCTURE OF THE COMPLEX FORMED BETWEEN SUBTILISIN CARLSBERG AND EGLIN C, AN ELASTASE INHIBITOR FROM THE LEECH HIRUDO MEDICINALIS. STRUCTURAL ANALYSIS, SUBTILISIN STRUCTURE AND INTERFACE GEOMETRY | 3.4.21.62 |
| 1CSJ | CRYSTAL STRUCTURE OF THE RNA-DEPENDENT RNA POLYMERASE OF HEPATITIS C VIRUS | 2.7.7.48 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 |
| 1CSO | CRYSTAL STRUCTURE OF THE OMTKY3 P1 VARIANT OMTKY3-ILE18I IN COMPLEX WITH SGPB | 3.4.21.81 |
| 1CT0 | CRYSTAL STRUCTURE OF THE OMTKY3 P1 VARIANT OMTKY3-SER18I IN COMPLEX WITH SGPB | 3.4.21.81 |
| 1CT2 | CRYSTAL STRUCTURE OF THE OMTKY3 P1 VARIANT OMTKY3-THR18I IN COMPLEX WITH SGPB | 3.4.21.81 |
| 1CT4 | CRYSTAL STRUCTURE OF THE OMTKY3 P1 VARIANT OMTKY3-VAL18I IN COMPLEX WITH SGPB | 3.4.21.81 |
| 1CTE | CRYSTAL STRUCTURES OF RECOMBINANT RAT CATHEPSIN B AND A CATHEPSIN B-INHIBITOR COMPLEX: IMPLICATIONS FOR STRUCTURE-BASED INHIBITOR DESIGN | 3.4.22.1 |
| 1CTN | CRYSTAL STRUCTURE OF A BACTERIAL CHITINASE AT 2.3 ANGSTROMS RESOLUTION | 3.2.1.14 |
| 1CTQ | STRUCTURE OF P21RAS IN COMPLEX WITH GPPNHP AT 100 K | 3.6.5.2 |
| 1CTT | TRANSITION-STATE SELECTIVITY FOR A SINGLE OH GROUP DURING CATALYSIS BY CYTIDINE DEAMINASE | 3.5.4.5 |
| 1CTU | TRANSITION-STATE SELECTIVITY FOR A SINGLE OH GROUP DURING CATALYSIS BY CYTIDINE DEAMINASE | 3.5.4.5 |
| 1CTW | T4 LYSOZYME MUTANT I78A | 3.2.1.17 |
| 1CU0 | T4 LYSOZYME MUTANT I78M | 3.2.1.17 |
| 1CU1 | CRYSTAL STRUCTURE OF AN ENZYME COMPLEX FROM HEPATITIS C VIRUS | 3.4.21 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 2.7.7.48 |
| 1CU2 | T4 LYSOZYME MUTANT L84M | 3.2.1.17 |
| 1CU3 | T4 LYSOZYME MUTANT V87M | 3.2.1.17 |
| 1CU5 | T4 LYSOZYME MUTANT L91M | 3.2.1.17 |
| 1CU6 | T4 LYSOZYME MUTANT L91A | 3.2.1.17 |
| 1CUA | CUTINASE, N172K MUTANT | 3.1.1.3 3.1.1.74 |
| 1CUB | CUTINASE, N172K, R196D MUTANT, MONOCLINIC CRYSTAL FORM | 3.1.1.3 3.1.1.74 |
| 1CUC | CUTINASE, N172K, R196D MUTANT, ORTHORHOMBIC CRYSTAL FORM | 3.1.1.3 3.1.1.74 |
| 1CUD | CUTINASE, N172K, R196D MUTANT, MONOCLINIC CRYSTAL FORM WITH THREE MOLECULES PER ASYMMETRIC UNIT | 3.1.1.3 3.1.1.74 |
| 1CUE | CUTINASE, Q121L MUTANT | 3.1.1.3 3.1.1.74 |
| 1CUF | CUTINASE, R156L MUTANT | 3.1.1.3 3.1.1.74 |
| 1CUG | CUTINASE, R17E, N172K MUTANT | 3.1.1.3 3.1.1.74 |
| 1CUH | CUTINASE, R196E MUTANT | 3.1.1.3 3.1.1.74 |
| 1CUI | CUTINASE, S120A MUTANT | 3.1.1.3 3.1.1.74 |
| 1CUJ | CUTINASE, S120C MUTANT | 3.1.1.3 3.1.1.74 |
| 1CUK | ESCHERICHIA COLI RUVA PROTEIN AT PH 4.9 AND ROOM TEMPERATURE | 3.6.4.12 |
| 1CUP | METHIONINE CORE MUTANT OF T4 LYSOZYME | 3.2.1.17 |
| 1CUQ | T4 LYSOZYME MUTANT V103M | 3.2.1.17 |
| 1CUS | FUSARIUM SOLANI CUTINASE IS A LIPOLYTIC ENZYME WITH A CATALYTIC SERINE ACCESSIBLE TO SOLVENT | 3.1.1 3.1.1.74 |
| 1CUU | CUTINASE, A199C MUTANT | 3.1.1.3 3.1.1.74 |
| 1CUV | CUTINASE, A85F MUTANT | 3.1.1.3 3.1.1.74 |
| 1CUW | CUTINASE, G82A, A85F, V184I, A185L, L189F MUTANT | 3.1.1.3 3.1.1.74 |
| 1CUX | CUTINASE, L114Y MUTANT | 3.1.1.3 3.1.1.74 |
| 1CUY | CUTINASE, L189F MUTANT | 3.1.1.3 3.1.1.74 |
| 1CUZ | CUTINASE, L81G, L182G MUTANT | 3.1.1.3 3.1.1.74 |
| 1CV0 | T4 LYSOZYME MUTANT F104M | 3.2.1.17 |
| 1CV1 | T4 LYSOZYME MUTANT V111M | 3.2.1.17 |
| 1CV2 | HYDROLYTIC HALOALKANE DEHALOGENASE LINB FROM SPHINGOMONAS PAUCIMOBILIS UT26 AT 1.6 A RESOLUTION | 3.8.1.5 |
| 1CV3 | T4 LYSOZYME MUTANT L121M | 3.2.1.17 |
| 1CV4 | T4 LYSOZYME MUTANT L118M | 3.2.1.17 |
| 1CV5 | T4 LYSOZYME MUTANT L133M | 3.2.1.17 |
| 1CV6 | T4 LYSOZYME MUTANT V149M | 3.2.1.17 |
| 1CV8 | STAPHOPAIN, CYSTEINE PROTEINASE FROM STAPHYLOCOCCUS AUREUS V8 | 3.4.22 3.4.22.48 |
| 1CVI | CRYSTAL STRUCTURE OF HUMAN PROSTATIC ACID PHOSPHATASE | 3.1.3.2 3.1.3.5 |
| 1CVK | T4 LYSOZYME MUTANT L118A | 3.2.1.17 |
| 1CVL | CRYSTAL STRUCTURE OF BACTERIAL LIPASE FROM CHROMOBACTERIUM VISCOSUM ATCC 6918 | 3.1.1.3 |
| 1CVM | CADMIUM INHIBITED CRYSTAL STRUCTURE OF PHYTASE FROM BACILLUS AMYLOLIQUEFACIENS | 3.1.3.8 |
| 1CVR | CRYSTAL STRUCTURE OF THE ARG SPECIFIC CYSTEINE PROTEINASE GINGIPAIN R (RGPB) | 3.4.22.37 |
| 1CVW | CRYSTAL STRUCTURE OF ACTIVE SITE-INHIBITED HUMAN COAGULATION FACTOR VIIA (DES-GLA) | 3.4.21.21 |
| 1CVZ | CRYSTAL STRUCTURE ANALYSIS OF PAPAIN WITH CLIK148(CATHEPSIN L SPECIFIC INHIBITOR) | 3.4.22.2 |
| 1CW0 | CRYSTAL STRUCTURE ANALYSIS OF VERY SHORT PATCH REPAIR (VSR) ENDONUCLEASE IN COMPLEX WITH A DUPLEX DNA | 3.1 |
| 1CWR | HUMAN CDC25B CATALYTIC DOMAIN WITHOUT ION IN CATALYTIC SITE | 3.1.3.48 |
| 1CWS | HUMAN CDC25B CATALYTIC DOMAIN WITH TUNGSTATE | 3.1.3.48 |
| 1CWT | HUMAN CDC25B CATALYTIC DOMAIN WITH METHYL MERCURY | 3.1.3.48 |
| 1CX1 | SECOND N-TERMINAL CELLULOSE-BINDING DOMAIN FROM CELLULOMONAS FIMI BETA-1,4-GLUCANASE C, NMR, 22 STRUCTURES | 3.2.1.4 |
| 1CX6 | T4 LYSOZYME SUBSTITUTED WITH SELENOMETHIONINE | 3.2.1.17 |
| 1CX7 | T4 LYSOZYME METHIONINE CORE MUTANT | 3.2.1.17 |
| 1CXQ | ATOMIC RESOLUTION ASV INTEGRASE CORE DOMAIN FROM AMMONIUM SULFATE | 3.4.23 2.7.7.49 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1CXU | 1.42A RESOLUTION ASV INTEGRASE CORE DOMAIN FROM CITRATE | 3.4.23 2.7.7.49 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1CXV | STRUCTURE OF RECOMBINANT MOUSE COLLAGENASE-3 (MMP-13) | 3.4.24 |
| 1CXW | THE SECOND TYPE II MODULE FROM HUMAN MATRIX METALLOPROTEINASE 2 | 3.4.24.24 |
| 1CXZ | CRYSTAL STRUCTURE OF HUMAN RHOA COMPLEXED WITH THE EFFECTOR DOMAIN OF THE PROTEIN KINASE PKN/PRK1 | 3.6.5.2 |
| 1CYQ | INTRON ENCODED HOMING ENDONUCLEASE I-PPOI (H98A)/DNA HOMING SITE COMPLEX | 3.1 |
| 1CZ0 | INTRON ENCODED HOMING ENDONUCLEASE I-PPOI/DNA COMPLEX LACKING CATALYTIC METAL ION | 3.1 |
| 1CZ1 | EXO-B-(1,3)-GLUCANASE FROM CANDIDA ALBICANS AT 1.85 A RESOLUTION | 3.2.1.58 2.4.1 |
| 1CZ9 | ATOMIC RESOLUTION ASV INTEGRASE CORE DOMAIN (D64N) FROM CITRATE | 3.4.23 2.7.7.49 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1CZB | ATOMIC RESOLUTION ASV INTEGRASE CORE DOMAIN FROM HEPES | 3.4.23 2.7.7.49 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1CZF | ENDO-POLYGALACTURONASE II FROM ASPERGILLUS NIGER | 3.2.1.15 |
| 1CZI | CHYMOSIN COMPLEX WITH THE INHIBITOR CP-113972 | 3.4.23.4 |
| 1D02 | CRYSTAL STRUCTURE OF MUNI RESTRICTION ENDONUCLEASE IN COMPLEX WITH COGNATE DNA | 3.1.21.4 |
| 1D07 | HYDROLYTIC HALOALKANE DEHALOGENASE LINB FROM SPHINGOMONAS PAUCIMOBILIS UT26 WITH 1,3-PROPANEDIOL, A PRODUCT OF DEBROMIDATION OF DIBROMPROPANE, AT 2.0A RESOLUTION | 3.8.1.5 |
| 1D0E | CRYSTAL STRUCTURES OF THE N-TERMINAL FRAGMENT FROM MOLONEY MURINE LEUKEMIA VIRUS REVERSE TRANSCRIPTASE COMPLEXED WITH NUCLEIC ACID: FUNCTIONAL IMPLICATIONS FOR TEMPLATE-PRIMER BINDING TO THE FINGERS DOMAIN | 2.7.7.49 3.4.23 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1D0H | THE HC FRAGMENT OF TETANUS TOXIN COMPLEXED WITH N-ACETYL-GALACTOSAMINE | 3.4.24.68 |
| 1D1D | NMR SOLUTION STRUCTURE OF THE CAPSID PROTEIN FROM ROUS SARCOMA VIRUS | 3.4.23 |
| 1D1P | CRYSTAL STRUCTURE OF A YEAST LOW MOLECULAR WEIGHT PROTEIN TYROSINE PHOSPHATASE (LTP1) | 3.1.3.48 3.1.3.2 |
| 1D1Q | CRYSTAL STRUCTURE OF A YEAST LOW MOLECULAR WEIGHT PROTEIN TYROSINE PHOSPHATASE (LTP1) COMPLEXED WITH THE SUBSTRATE PNPP | 3.1.3.48 3.1.3.2 |
| 1D1U | USE OF AN N-TERMINAL FRAGMENT FROM MOLONEY MURINE LEUKEMIA VIRUS REVERSE TRANSCRIPTASE TO FACILITATE CRYSTALLIZATION AND ANALYSIS OF A PSEUDO-16-MER DNA MOLECULE CONTAINING G-A MISPAIRS | 2.7.7.7 3.4.23 2.7.7.49 3.1.26.4 2.7.7 3.1 |
| 1D2A | CRYSTAL STRUCTURE OF A YEAST LOW MOLECULAR WEIGHT PROTEIN TYROSINE PHOSPHATASE (LTP1) COMPLEXED WITH THE ACTIVATOR ADENINE | 3.1.3.48 3.1.3.2 |
| 1D2I | CRYSTAL STRUCTURE OF RESTRICTION ENDONUCLEASE BGLII COMPLEXED WITH DNA 16-MER | 3.1.21.4 |
| 1D2K | C. IMMITIS CHITINASE 1 AT 2.2 ANGSTROMS RESOLUTION | 3.2.1.14 |
| 1D2N | D2 DOMAIN OF N-ETHYLMALEIMIDE-SENSITIVE FUSION PROTEIN | 3.6.4.6 |
| 1D2T | CRYSTAL STRUCTURE OF ACID PHOSPHATASE FROM ESCHERICHIA BLATTAE | 3.1.3.2 |
| 1D2W | N-TERMINAL DOMAIN CORE METHIONINE MUTATION | 3.2.1.17 |
| 1D2Y | N-TERMINAL DOMAIN CORE METHIONINE MUTATION | 3.2.1.17 |
| 1D3D | CRYSTAL STRUCTURE OF HUMAN ALPHA THROMBIN IN COMPLEX WITH BENZOTHIOPHENE INHIBITOR 4 | 3.4.21.5 |
| 1D3F | N-TERMINAL DOMAIN CORE METHIONINE MUTATION | 3.2.1.17 |
| 1D3J | N-TERMINAL DOMAIN CORE METHIONINE MUTATION | 3.2.1.17 |
| 1D3M | METHIONINE CORE MUTATION | 3.2.1.17 |
| 1D3N | METHIONINE CORE MUTATION | 3.2.1.17 |
| 1D3P | CRYSTAL STRUCTURE OF HUMAN APLHA-THROMBIN IN COMPLEX WITH BENZO[B]THIOPHENE INHIBITOR 3 | 3.4.21.5 |
| 1D3Q | CRYSTAL STRUCTURE OF HUMAN ALPHA THROMBIN IN COMPLEX WITH BENZO[B]THIOPHENE INHIBITOR 2 | 3.4.21.5 |
| 1D3T | CRYSTAL STRUCTURE OF HUMAN ALPHA THROMBIN IN COMPLEX WITH BENZO[B]THIOPHENE INHIBITOR 1 | 3.4.21.5 |
| 1D3V | CRYSTAL STRUCTURE OF THE BINUCLEAR MANGANESE METALLOENZYME ARGINASE COMPLEXED WITH 2(S)-AMINO-6-BORONOHEXANOIC ACID, AN L-ARGININE ANALOG | 3.5.3.1 |
| 1D4F | CRYSTAL STRUCTURE OF RECOMBINANT RAT-LIVER D244E MUTANT S-ADENOSYLHOMOCYSTEINE HYDROLASE | 3.3.1.1 |
| 1D4H | HIV-1 PROTEASE IN COMPLEX WITH THE INHIBITOR BEA435 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1D4I | HIV-1 PROTEASE IN COMPLEX WITH THE INHIBITOR BEA425 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1D4J | HIV-1 PROTEASE IN COMPLEX WITH THE INHIBITOR MSL370 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1D4K | HIV-1 PROTEASE COMPLEXED WITH A MACROCYCLIC PEPTIDOMIMETIC INHIBITOR | 3.4.23.16 |
| 1D4L | HIV-1 PROTEASE COMPLEXED WITH A MACROCYCLIC PEPTIDOMIMETIC INHIBITOR | 3.4.23.16 |
| 1D4M | THE CRYSTAL STRUCTURE OF COXSACKIEVIRUS A9 TO 2.9 A RESOLUTION | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1D4P | CRYSTAL STRUCTURE OF HUMAN ALPHA THROMBIN IN COMPLEX WITH 5-AMIDINOINDOLE-4-BENZYLPIPERIDINE INHIBITOR | 3.4.21.5 |
| 1D4S | HIV-1 PROTEASE V82F/I84V DOUBLE MUTANT/TIPRANAVIR COMPLEX | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1D4Y | HIV-1 PROTEASE TRIPLE MUTANT/TIPRANAVIR COMPLEX | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1D5G | SOLUTION STRUCTURE OF THE PDZ2 DOMAIN FROM HUMAN PHOSPHATASE HPTP1E COMPLEXED WITH A PEPTIDE | 3.1.3.48 |
| 1D5J | CRYSTAL STRUCTURE OF MMP3 COMPLEXED WITH A THIAZEPINE BASED INHIBITOR. | 3.4.24.17 |
| 1D5R | CRYSTAL STRUCTURE OF THE PTEN TUMOR SUPPRESSOR | 3.1.3.48 3.1.3.16 3.1.3.67 |
| 1D6A | STRUCTURE OF POKEWEED ANTIVIRAL PROTEIN COMPLEXED WITH GUANINE | 3.2.2.22 |
| 1D6P | HUMAN LYSOZYME L63 MUTANT LABELLED WITH 2',3'-EPOXYPROPYL N,N'-DIACETYLCHITOBIOSE | 3.2.1.17 |
| 1D6Q | HUMAN LYSOZYME E102 MUTANT LABELLED WITH 2',3'-EPOXYPROPYL GLYCOSIDE OF N-ACETYLLACTOSAMINE | 3.2.1.17 |
| 1D6R | CRYSTAL STRUCTURE OF CANCER CHEMOPREVENTIVE BOWMAN-BIRK INHIBITOR IN TERNARY COMPLEX WITH BOVINE TRYPSIN AT 2.3 A RESOLUTION. STRUCTURAL BASIS OF JANUS-FACED SERINE PROTEASE INHIBITOR SPECIFICITY | 3.4.21.4 |
| 1D6T | RNASE P PROTEIN FROM STAPHYLOCOCCUS AUREUS | 3.1.26.5 |
| 1D6W | STRUCTURE OF THROMBIN COMPLEXED WITH SELECTIVE NON-ELECTROPHILIC INHIBITORS HAVING CYCLOHEXYL MOIETIES AT P1 | 3.4.21.5 |
| 1D7X | CRYSTAL STRUCTURE OF MMP3 COMPLEXED WITH A MODIFIED PROLINE SCAFFOLD BASED INHIBITOR. | 3.4.24.17 |
| 1D8B | NMR STRUCTURE OF THE HRDC DOMAIN FROM SACCHAROMYCES CEREVISIAE RECQ HELICASE | 3.6.4.12 |
| 1D8F | CRYSTAL STRUCTURE OF MMP3 COMPLEXED WITH A PIPERAZINE BASED INHIBITOR. | 3.4.24.17 |
| 1D8H | X-RAY CRYSTAL STRUCTURE OF YEAST RNA TRIPHOSPHATASE IN COMPLEX WITH SULFATE AND MANGANESE IONS. | 3.1.3.33 |
| 1D8I | X-RAY CRYSTAL STRUCTURE OF YEAST RNA TRIPHOSPHATASE IN COMPLEX WITH A SULFATE ION. | 3.1.3.33 |
| 1D8L | E. COLI HOLLIDAY JUNCTION BINDING PROTEIN RUVA NH2 REGION LACKING DOMAIN III | 3.6.4.12 |
| 1D8M | CRYSTAL STRUCTURE OF MMP3 COMPLEXED WITH A HETEROCYCLE-BASED INHIBITOR | 3.4.24.17 |
| 1D8V | THE RESTRAINED AND MINIMIZED AVERAGE NMR STRUCTURE OF MAP30. | 3.2.2.22 |
| 1D9I | STRUCTURE OF THROMBIN COMPLEXED WITH SELECTIVE NON-ELECTOPHILIC INHIBITORS HAVING CYCLOHEXYL MOIETIES AT P1 | 3.4.21.5 |
| 1D9Q | OXIDIZED PEA FRUCTOSE-1,6-BISPHOSPHATASE FORM 1 | 3.1.3.11 |
| 1D9U | BACTERIOPHAGE LAMBDA LYSOZYME COMPLEXED WITH A CHITOHEXASACHARIDE | 3.2.1.17 4.2.2 |
| 1D9W | BACTERIOPHAGE T4 LYSOZYME MUTANT | 3.2.1.17 |
| 1DAN | COMPLEX OF ACTIVE SITE INHIBITED HUMAN BLOOD COAGULATION FACTOR VIIA WITH HUMAN RECOMBINANT SOLUBLE TISSUE FACTOR | 3.4.21.21 |
| 1DAQ | SOLUTION STRUCTURE OF THE TYPE I DOCKERIN DOMAIN FROM THE CLOSTRIDIUM THERMOCELLUM CELLULOSOME (MINIMIZED AVERAGE STRUCTURE) | 3.2.1.4 3.2.1.176 |
| 1DAV | SOLUTION STRUCTURE OF THE TYPE I DOCKERIN DOMAIN FROM THE CLOSTRIDIUM THERMOCELLUM CELLULOSOME (20 STRUCTURES) | 3.2.1.4 3.2.1.176 |
| 1DAZ | STRUCTURAL AND KINETIC ANALYSIS OF DRUG RESISTANT MUTANTS OF HIV-1 PROTEASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1DB4 | HUMAN S-PLA2 IN COMPLEX WITH INDOLE 8 | 3.1.1.4 |
| 1DB5 | HUMAN S-PLA2 IN COMPLEX WITH INDOLE 6 | 3.1.1.4 |
| 1DBI | CRYSTAL STRUCTURE OF A THERMOSTABLE SERINE PROTEASE | 3.4.21 |
| 1DBZ | C153S MUTANT OF PEA FRUCTOSE-1,6-BISPHOSPHATASE | 3.1.3.11 |
| 1DC1 | RESTRICTION ENZYME BSOBI/DNA COMPLEX STRUCTURE: ENCIRCLEMENT OF THE DNA AND HISTIDINE-CATALYZED HYDROLYSIS WITHIN A CANONICAL RESTRICTION ENZYME FOLD | 3.1.21.4 |
| 1DCU | REDOX SIGNALING IN THE CHLOROPLAST: STRUCTURE OF OXIDIZED PEA FRUCTOSE-1,6-BISPHOSPHATE PHOSPHATASE | 3.1.3.11 |
| 1DCY | CRYSTAL STRUCTURE OF HUMAN S-PLA2 IN COMPLEX WITH INDOLE 3 ACTIVE SITE INHIBITOR | 3.1.1.4 |
| 1DD6 | IMP-1 METALLO BETA-LACTAMASE FROM PSEUDOMONAS AERUGINOSA IN COMPLEX WITH A MERCAPTOCARBOXYLATE INHIBITOR | 3.5.2.6 |
| 1DDJ | CRYSTAL STRUCTURE OF HUMAN PLASMINOGEN CATALYTIC DOMAIN | 3.4.21.7 |
| 1DDK | CRYSTAL STRUCTURE OF IMP-1 METALLO BETA-LACTAMASE FROM PSEUDOMONAS AERUGINOSA | 3.5.2.6 |
| 1DE3 | SOLUTION STRUCTURE OF THE CYTOTOXIC RIBONUCLEASE ALPHA-SARCIN | 3.1.27.10 4.6.1.23 |
| 1DE8 | HUMAN APURINIC/APYRIMIDINIC ENDONUCLEASE-1 (APE1) BOUND TO ABASIC DNA | 4.2.99.18 3.1 |
| 1DE9 | HUMAN APE1 ENDONUCLEASE WITH BOUND ABASIC DNA AND MN2+ ION | 4.2.99.18 3.1 |
| 1DEA | STRUCTURE AND CATALYTIC MECHANISM OF GLUCOSAMINE 6-PHOSPHATE DEAMINASE FROM ESCHERICHIA COLI AT 2.1 ANGSTROMS RESOLUTION | 3.5.99.6 |
| 1DEF | PEPTIDE DEFORMYLASE CATALYTIC CORE (RESIDUES 1-147), NMR, 9 STRUCTURES | 3.5.1.31 3.5.1.88 |
| 1DEO | RHAMNOGALACTURONAN ACETYLESTERASE FROM ASPERGILLUS ACULEATUS AT 1.55 A RESOLUTION WITH SO4 IN THE ACTIVE SITE | 3.1.1.86 |
| 1DET | RIBONUCLEASE T1 CARBOXYMETHYLATED AT GLU 58 IN COMPLEX WITH 2'GMP | 3.1.27.3 4.6.1.24 |
| 1DEU | CRYSTAL STRUCTURE OF HUMAN PROCATHEPSIN X: A CYSTEINE PROTEASE WITH THE PROREGION COVALENTLY LINKED TO THE ACTIVE SITE CYSTEINE | 3.4.18.1 |
| 1DEW | CRYSTAL STRUCTURE OF HUMAN APE1 BOUND TO ABASIC DNA | 4.2.99.18 3.1 |
| 1DEX | RHAMNOGALACTURONAN ACETYLESTERASE FROM ASPERGILLUS ACULEATUS AT 1.9 A RESOLUTION | 3.1.1.86 |
| 1DF0 | CRYSTAL STRUCTURE OF M-CALPAIN | 3.4.22.53 |
| 1DFA | CRYSTAL STRUCTURE OF PI-SCEI IN C2 SPACE GROUP | 7.1.2.2 3.1 |
| 1DFF | PEPTIDE DEFORMYLASE | 3.5.1.31 3.5.1.88 |
| 1DFJ | RIBONUCLEASE INHIBITOR COMPLEXED WITH RIBONUCLEASE A | 3.1.27.5 4.6.1.18 |
| 1DFM | CRYSTAL STRUCTURE OF RESTRICTION ENDONUCLEASE BGLII COMPLEXED WITH DNA 16-MER | 3.1.21.4 |
| 1DFP | FACTOR D INHIBITED BY DIISOPROPYL FLUOROPHOSPHATE | 3.4.21.46 |
| 1DFQ | THE HC FRAGMENT OF TETANUS TOXIN COMPLEXED WITH SIALIC ACID | 3.4.24.68 |
| 1DG3 | STRUCTURE OF HUMAN GUANYLATE BINDING PROTEIN-1 IN NUCLEOTIDE FREE FORM | 3.6.5 |
| 1DG9 | CRYSTAL STRUCTURE OF BOVINE LOW MOLECULAR WEIGHT PTPASE COMPLEXED WITH HEPES | 3.1.3.48 3.1.3.2 |
| 1DGI | CRYO-EM STRUCTURE OF HUMAN POLIOVIRUS(SEROTYPE 1)COMPLEXED WITH THREE DOMAIN CD155 | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1DHK | STRUCTURE OF PORCINE PANCREATIC ALPHA-AMYLASE | 3.2.1.1 |
| 1DI3 | ROLE OF AMINO ACID RESIDUES AT TURNS IN THE CONFORMATIONAL STABILITY AND FOLDING OF HUMAN LYSOZYME | 3.2.1.17 |
| 1DI4 | ROLE OF AMINO ACID RESIDUES AT TURNS IN THE CONFORMATIONAL STABILITY AND FOLDING OF HUMAN LYSOZYME | 3.2.1.17 |
| 1DI5 | ROLE OF AMINO ACID RESIDUES AT TURNS IN THE CONFORMATIONAL STABILITY AND FOLDING OF HUMAN LYSOZYME | 3.2.1.17 |
| 1DIA | HUMAN METHYLENETETRAHYDROFOLATE DEHYDROGENASE / CYCLOHYDROLASE COMPLEXED WITH NADP AND INHIBITOR LY249543 | 1.5.1.5 3.5.4.9 6.3.4.3 |
| 1DIB | HUMAN METHYLENETETRAHYDROFOLATE DEHYDROGENASE / CYCLOHYDROLASE COMPLEXED WITH NADP AND INHIBITOR LY345899 | 1.5.1.5 3.5.4.9 6.3.4.3 |
| 1DIC | STRUCTURE OF 3,4-DICHLOROISOCOUMARIN-INHIBITED FACTOR D | 3.4.21.46 |
| 1DIF | HIV-1 PROTEASE IN COMPLEX WITH A DIFLUOROKETONE CONTAINING INHIBITOR A79285 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1DIG | HUMAN METHYLENETETRAHYDROFOLATE DEHYDROGENASE / CYCLOHYDROLASE COMPLEXED WITH NADP AND INHIBITOR LY374571 | 1.5.1.5 3.5.4.9 6.3.4.3 |
| 1DIL | SIALIDASE FROM SALMONELLA TYPHIMURIUM COMPLEXED WITH APANA AND EPANA INHIBITORS | 3.2.1.18 |
| 1DIM | SIALIDASE FROM SALMONELLA TYPHIMURIUM COMPLEXED WITH EPANA INHIBITOR | 3.2.1.18 |
| 1DIN | DIENELACTONE HYDROLASE AT 2.8 ANGSTROMS | 3.1.1.45 |
| 1DIT | COMPLEX OF A DIVALENT INHIBITOR WITH THROMBIN | 3.4.21.5 |
| 1DIW | THE HC FRAGMENT OF TETANUS TOXIN COMPLEXED WITH GALACTOSE | 3.4.24.68 |
| 1DIX | CRYSTAL STRUCTURE OF RNASE LE | 3.1.27.1 4.6.1.19 |
| 1DIZ | CRYSTAL STRUCTURE OF E. COLI 3-METHYLADENINE DNA GLYCOSYLASE (ALKA) COMPLEXED WITH DNA | 3.2.2.21 |
| 1DJA | STRUCTURE OF BETA-LACTAMASE PRECURSOR, K73H MUTANT, AT 298K | 3.5.2.6 |
| 1DJB | STRUCTURE OF BETA-LACTAMASE PRECURSOR, S70A MUTANT, AT 298K | 3.5.2.6 |
| 1DJC | STRUCTURE OF BETA-LACTAMASE PRECURSOR, S70A MUTANT, AT 120K | 3.5.2.6 |
| 1DJG | PHOSPHOINOSITIDE-SPECIFIC PHOSPHOLIPASE C-DELTA1 FROM RAT COMPLEXED WITH LANTHANUM | 3.1.4.11 |
| 1DJH | PHOSPHOINOSITIDE-SPECIFIC PHOSPHOLIPASE C-DELTA1 FROM RAT COMPLEXED WITH BARIUM | 3.1.4.11 |
| 1DJI | PHOSPHOINOSITIDE-SPECIFIC PHOSPHOLIPASE C-DELTA1 FROM RAT COMPLEXED WITH CALCIUM | 3.1.4.11 |
| 1DJO | CRYSTAL STRUCTURE OF PSEUDOMONAS 7A GLUTAMINASE-ASPARAGINASE WITH THE INHIBITOR DONV COVALENTLY BOUND IN THE ACTIVE SITE | 3.5.1.38 |
| 1DJP | CRYSTAL STRUCTURE OF PSEUDOMONAS 7A GLUTAMINASE-ASPARAGINASE WITH THE INHIBITOR DON COVALENTLY BOUND IN THE ACTIVE SITE | 3.5.1.38 |
| 1DJW | PHOSPHOINOSITIDE-SPECIFIC PHOSPHOLIPASE C-DELTA1 FROM RAT COMPLEXED WITH INOSITOL-2-METHYLENE-1,2-CYCLIC-MONOPHOSPHONATE | 3.1.4.11 |
| 1DJX | PHOSPHOINOSITIDE-SPECIFIC PHOSPHOLIPASE C-DELTA1 FROM RAT COMPLEXED WITH INOSITOL-1,4,5-TRISPHOSPHATE | 3.1.4.11 |
| 1DJY | PHOSPHOINOSITIDE-SPECIFIC PHOSPHOLIPASE C-DELTA1 FROM RAT COMPLEXED WITH INOSITOL-2,4,5-TRISPHOSPHATE | 3.1.4.11 |
| 1DJZ | PHOSPHOINOSITIDE-SPECIFIC PHOSPHOLIPASE C-DELTA1 FROM RAT COMPLEXED WITH INOSITOL-4,5-BISPHOSPHATE | 3.1.4.11 |
| 1DK4 | CRYSTAL STRUCTURE OF MJ0109 GENE PRODUCT INOSITOL MONOPHOSPHATASE | 3.1.3.25 3.1.3.11 |
| 1DKI | CRYSTAL STRUCTURE OF THE ZYMOGEN FORM OF STREPTOCOCCAL PYROGENIC EXOTOXIN B ACTIVE SITE (C47S) MUTANT | 3.4.22.10 |
| 1DKJ | BOBWHITE QUAIL LYSOZYME | 3.2.1.17 |
| 1DKK | BOBWHITE QUAIL LYSOZYME WITH NITRATE | 3.2.1.17 |
| 1DKL | CRYSTAL STRUCTURE OF ESCHERICHIA COLI PHYTASE AT PH 4.5 (NO LIGAND BOUND) | 3.1.3.2 3.1.3.26 |
| 1DKM | CRYSTAL STRUCTURE OF ESCHERICHIA COLI PHYTASE AT PH 6.6 WITH HG2+ CATION ACTING AS AN INTERMOLECULAR BRIDGE | 3.1.3.2 3.1.3.26 |
| 1DKN | CRYSTAL STRUCTURE OF ESCHERICHIA COLI PHYTASE AT PH 5.0 WITH HG2+ CATION ACTING AS AN INTERMOLECULAR BRIDGE | 3.1.3.2 3.1.3.26 |
| 1DKO | CRYSTAL STRUCTURE OF TUNGSTATE COMPLEX OF ESCHERICHIA COLI PHYTASE AT PH 6.6 WITH TUNGSTATE BOUND AT THE ACTIVE SITE AND WITH HG2+ CATION ACTING AS AN INTERMOLECULAR BRIDGE | 3.1.3.2 3.1.3.26 |
| 1DKP | CRYSTAL STRUCTURE OF PHYTATE COMPLEX OF ESCHERICHIA COLI PHYTASE AT PH 6.6. PHYTATE IS BOUND WITH ITS 3-PHOSPHATE IN THE ACTIVE SITE. HG2+ CATION ACTS AS AN INTERMOLECULAR BRIDGE | 3.1.3.2 3.1.3.26 |
| 1DKQ | CRYSTAL STRUCTURE OF PHYTATE COMPLEX ESCHERICHIA COLI PHYTASE AT PH 5.0. PHYTATE IS BOUND WITH ITS 3-PHOSPHATE IN THE ACTIVE SITE. HG2+ CATION ACTS AS AN INTERMOLECULAR BRIDGE | 3.1.3.2 3.1.3.26 |
| 1DL2 | CRYSTAL STRUCTURE OF CLASS I ALPHA-1,2-MANNOSIDASE FROM SACCHAROMYCES CEREVISIAE AT 1.54 ANGSTROM RESOLUTION | 3.2.1.113 |
| 1DLE | FACTOR B SERINE PROTEASE DOMAIN | 3.4.21.47 |
| 1DLK | CRYSTAL STRUCTURE ANALYSIS OF DELTA-CHYMOTRYPSIN BOUND TO A PEPTIDYL CHLOROMETHYL KETONE INHIBITOR | 3.4.21.1 |
| 1DLL | THE HC FRAGEMENT OF TETANUS TOXIN COMPLEXED WITH LACTOSE | 3.4.24.68 |
| 1DLO | HUMAN IMMUNODEFICIENCY VIRUS TYPE 1 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1DM0 | SHIGA TOXIN | 3.2.2.22 |
| 1DM4 | SER195ALA MUTANT OF HUMAN THROMBIN COMPLEXED WITH FIBRINOPEPTIDE A (7-16) | 3.4.21.5 |
| 1DMP | STRUCTURE OF HIV-1 PROTEASE COMPLEX | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1DMT | STRUCTURE OF HUMAN NEUTRAL ENDOPEPTIDASE COMPLEXED WITH PHOSPHORAMIDON | 3.4.24.11 |
| 1DMU | CRYSTAL STRUCTURE OF THE RESTRICTION ENDONUCLEASE BGLI (E.C.3.1.21.4) BOUND TO ITS DNA RECOGNITION SEQUENCE | 3.1.21.4 |
| 1DNK | THE X-RAY STRUCTURE OF THE DNASE I-D(GGTATACC)2 COMPLEX AT 2.3 ANGSTROMS RESOLUTION | 3.1.21.1 |
| 1DOA | STRUCTURE OF THE RHO FAMILY GTP-BINDING PROTEIN CDC42 IN COMPLEX WITH THE MULTIFUNCTIONAL REGULATOR RHOGDI | 3.6.5.2 |
| 1DOG | REFINED STRUCTURE FOR THE COMPLEX OF 1-DEOXYNOJIRIMYCIN WITH GLUCOAMYLASE FROM (ASPERGILLUS AWAMORI) VAR. X100 TO 2.4 ANGSTROMS RESOLUTION | 3.2.1.3 |
| 1DOJ | CRYSTAL STRUCTURE OF HUMAN ALPHA-THROMBIN*RWJ-51438 COMPLEX AT 1.7 A | 3.4.21.5 |
| 1DP5 | THE STRUCTURE OF PROTEINASE A COMPLEXED WITH A IA3 MUTANT INHIBITOR | 3.4.23.25 |
| 1DPF | CRYSTAL STRUCTURE OF A MG-FREE FORM OF RHOA COMPLEXED WITH GDP | 3.6.5.2 |
| 1DPJ | THE STRUCTURE OF PROTEINASE A COMPLEXED WITH IA3 PEPTIDE INHIBITOR | 3.4.23.25 |
| 1DPM | THREE-DIMENSIONAL STRUCTURE OF THE ZINC-CONTAINING PHOSPHOTRIESTERASE WITH BOUND SUBSTRATE ANALOG DIETHYL 4-METHYLBENZYLPHOSPHONATE | 3.1.8.1 |
| 1DPO | STRUCTURE OF RAT TRYPSIN | 3.4.21.4 |
| 1DPW | STRUCTURE OF HEN EGG-WHITE LYSOZYME IN COMPLEX WITH MPD | 3.2.1.17 |
| 1DPX | STRUCTURE OF HEN EGG-WHITE LYSOZYME | 3.2.1.17 |
| 1DPY | THREE-DIMENSIONAL STRUCTURE OF A NOVEL PHOSPHOLIPASE A2 FROM INDIAN COMMON KRAIT AT 2.45 A RESOLUTION | 3.1.1.4 |
| 1DQ3 | CRYSTAL STRUCTURE OF AN ARCHAEAL INTEIN-ENCODED HOMING ENDONUCLEASE PI-PFUI | 1.17.4.1 3.1 |
| 1DS2 | CRYSTAL STRUCTURE OF SGPB:OMTKY3-COO-LEU18I | 3.4.21.81 |
| 1DSN | D60S N-TERMINAL LOBE HUMAN LACTOFERRIN | 3.4.21 |
| 1DST | MUTANT OF FACTOR D WITH ENHANCED CATALYTIC ACTIVITY | 3.4.21.46 |
| 1DSU | HUMAN FACTOR D, COMPLEMENT ACTIVATING ENZYME | 3.4.21.46 |
| 1DT2 | CRYSTAL STRUCTURE OF EXFOLIATIVE TOXIN B | 3.4.21 |
| 1DT3 | THE STRUCTURAL ORIGINS OF INTERFACIAL ACTIVATION IN THERMOMYCES (HUMICOLA) LANUGINOSA LIPASE | 3.1.1.3 |
| 1DT5 | THE STRUCTURAL ORIGINS OF INTERFACIAL ACTIVATION IN THERMOMYCES (HUMICOLA) LANUGINOSA LIPASE | 3.1.1.3 |
| 1DTD | CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN THE LEECH CARBOXYPEPTIDASE INHIBITOR AND THE HUMAN CARBOXYPEPTIDASE A2 (LCI-CPA2) | 3.4.15.1 3.4.17.15 |
| 1DTE | THE STRUCTURAL ORIGINS OF INTERFACIAL ACTIVATION IN THERMOMYCES (HUMICOLA) LANUGINOSA LIPASE | 3.1.1.3 |
| 1DTH | METALLOPROTEASE | 3.4.24.42 |
| 1DTQ | CRYSTAL STRUCTURE OF HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH PETT-1 (PETT131A94) | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1DTT | CRYSTAL STRUCTURE OF HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH PETT-2 (PETT130A94) | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1DTZ | STRUCTURE OF CAMEL APO-LACTOFERRIN DEMONSTRATES ITS DUAL ROLE IN SEQUESTERING AND TRANSPORTING FERRIC IONS SIMULTANEOUSLY:CRYSTAL STRUCTURE OF CAMEL APO-LACTOFERRIN AT 2.6A RESOLUTION. | 3.4.21 |
| 1DU4 | THE STRUCTURAL ORIGINS OF INTERFACIAL ACTIVATION IN THERMOMYCES (HUMICOLA) LANUGINOSA LIPASE OTHER STRUCTURE DETAILS | 3.1.1.3 |
| 1DUA | CRYSTAL STRUCTURE OF EXFOLIATIVE TOXIN A | 3.4.21 |
| 1DUC | EIAV DUTPASE DUDP/STRONTIUM COMPLEX | 3.6.1.23 3.4.23 2.7.7.49 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1DUD | DEOXYURIDINE 5'-TRIPHOSPHATE NUCLEOTIDE HYDROLASE (D-UTPASE) COMPLEXED WITH THE SUBSTRATE ANALOGUE DEOXYURIDINE 5'-DIPHOSPHATE (D-UDP) | 3.6.1.23 |
| 1DUE | CRYSTAL STRUCTURE OF EXFOLIATIVE TOXIN A S195A MUTANT | 3.4.21 |
| 1DUI | SUBTILISIN BPN' FROM BACILLUS AMYLOLIQUEFACIENS, CRYSTAL GROWTH MUTANT | 3.4.21.62 |
| 1DUN | EIAV DUTPASE NATIVE | 3.6.1.23 3.4.23 2.7.7.49 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1DUP | DEOXYURIDINE 5'-TRIPHOSPHATE NUCLEOTIDO HYDROLASE (D-UTPASE) | 3.6.1.23 |
| 1DUT | FIV DUTP PYROPHOSPHATASE | 3.6.1.23 3.4.23 2.7.7.49 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1DVA | CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN THE PEPTIDE EXOSITE INHIBITOR E-76 AND COAGULATION FACTOR VIIA | 3.4.21.21 |
| 1DW6 | STRUCTURAL AND KINETIC ANALYSIS OF DRUG RESISTANT MUTANTS OF HIV-1 PROTEASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1DWA | STUDY ON RADIATION DAMAGE ON A CRYOCOOLED CRYSTAL. PART 1: STRUCTURE PRIOR TO IRRADIATION | 3.2.1.147 |
| 1DWB | CRYSTALLOGRAPHIC ANALYSIS AT 3.0-ANGSTROMS RESOLUTION OF THE BINDING TO HUMAN THROMBIN OF FOUR ACTIVE SITE-DIRECTED INHIBITORS | 3.4.21.5 |
| 1DWC | CRYSTALLOGRAPHIC ANALYSIS AT 3.0-ANGSTROMS RESOLUTION OF THE BINDING TO HUMAN THROMBIN OF FOUR ACTIVE SITE-DIRECTED INHIBITORS | 3.4.21.5 |
| 1DWD | CRYSTALLOGRAPHIC ANALYSIS AT 3.0-ANGSTROMS RESOLUTION OF THE BINDING TO HUMAN THROMBIN OF FOUR ACTIVE SITE-DIRECTED INHIBITORS | 3.4.21.5 |
| 1DWE | CRYSTALLOGRAPHIC ANALYSIS AT 3.0-ANGSTROMS RESOLUTION OF THE BINDING TO HUMAN THROMBIN OF FOUR ACTIVE SITE-DIRECTED INHIBITORS | 3.4.21.5 |
| 1DWF | STUDY ON RADIATION DAMAGE ON A CRYOCOOLED CRYSTAL. PART 2: STRUCTURE AFTER IRRADIATION WITH 9.1*10E15 PHOTONS/MM2 | 3.2.1.147 |
| 1DWG | STUDY ON RADIATION DAMAGE ON A CRYOCOOLED CRYSTAL: PART 3 STRUCTURE AFTER IRRADIATION WITH 18.2*10E15 PHOTONS/MM2. | 3.2.1.147 |
| 1DWH | STUDY ON RADIATION DAMAGE ON A CRYOCOOLED CRYSTAL. PART 4: STRUCTURE AFTER IRRADIATION WITH 27.2*10E15 PHOTONS/MM2 | 3.2.1.147 |
| 1DWI | STUDY ON RADIATION DAMAGE ON A CRYOCOOLED CRYSTAL. PART 5: STRUCTURE AFTER IRRADIATION WITH 54.0*10E15 PHOTONS/MM2 | 3.2.1.147 |
| 1DWJ | STUDY ON RADIATION DAMAGE ON A CRYOCOOLED CRYSTAL. REFINED PART 6: STRUCTURE AFTER A RADIATION DOSE OF 54*10E15 PHOTONS/MM2 | 3.2.1.147 |
| 1DX4 | ACHE FROM DROSOPHILA MELANOGASTER COMPLEX WITH TACRINE DERIVATIVE 9-(3-PHENYLMETHYLAMINO)-1,2,3,4-TETRAHYDROACRIDINE | 3.1.1.7 |
| 1DX5 | CRYSTAL STRUCTURE OF THE THROMBIN-THROMBOMODULIN COMPLEX | 3.4.21.5 |
| 1DX6 | STRUCTURE OF ACETYLCHOLINESTERASE COMPLEXED WITH (-)-GALANTHAMINE AT 2.3A RESOLUTION | 3.1.1.7 |
| 1DXJ | STRUCTURE OF THE CHITINASE FROM JACK BEAN | 3.2.1.14 |
| 1DXK | METALLO-BETA-LACTAMASE FROM BACILLUS CEREUS 569/H/9 C168S MUTANT | 3.5.2.6 |
| 1DXP | INHIBITION OF THE HEPATITIS C VIRUS NS3/4A PROTEASE. THE CRYSTAL STRUCTURES OF TWO PROTEASE-INHIBITOR COMPLEXES (APO STRUCTURE) | 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 2.7.7.48 |
| 1DY4 | CBH1 IN COMPLEX WITH S-PROPRANOLOL | 3.2.1.91 |
| 1DY5 | DEAMIDATED DERIVATIVE OF BOVINE PANCREATIC RIBONUCLEASE | 3.1.27.5 4.6.1.18 |
| 1DY6 | STRUCTURE OF THE IMIPENEM-HYDROLYZING BETA-LACTAMASE SME-1 | 3.5.2.6 |
| 1DY8 | INHIBITION OF THE HEPATITIS C VIRUS NS3/4A PROTEASE. THE CRYSTAL STRUCTURES OF TWO PROTEASE-INHIBITOR COMPLEXES (INHIBITOR II) | 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 2.7.7.48 |
| 1DY9 | INHIBITION OF THE HEPATITIS C VIRUS NS3/4A PROTEASE. THE CRYSTAL STRUCTURES OF TWO PROTEASE-INHIBITOR COMPLEXES (INHIBITOR I) | 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 2.7.7.48 |
| 1DYA | DETERMINATION OF ALPHA-HELIX PROPENSITY WITHIN THE CONTEXT OF A FOLDED PROTEIN: SITES 44 AND 131 IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1DYB | DETERMINATION OF ALPHA-HELIX PROPENSITY WITHIN THE CONTEXT OF A FOLDED PROTEIN: SITES 44 AND 131 IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1DYC | DETERMINATION OF ALPHA-HELIX PROPENSITY WITHIN THE CONTEXT OF A FOLDED PROTEIN: SITES 44 AND 131 IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1DYD | DETERMINATION OF ALPHA-HELIX PROPENSITY WITHIN THE CONTEXT OF A FOLDED PROTEIN: SITES 44 AND 131 IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1DYE | DETERMINATION OF ALPHA-HELIX PROPENSITY WITHIN THE CONTEXT OF A FOLDED PROTEIN: SITES 44 AND 131 IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1DYF | DETERMINATION OF ALPHA-HELIX PROPENSITY WITHIN THE CONTEXT OF A FOLDED PROTEIN: SITES 44 AND 131 IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1DYG | DETERMINATION OF ALPHA-HELIX PROPENSITY WITHIN THE CONTEXT OF A FOLDED PROTEIN: SITES 44 AND 131 IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1DYL | 9 ANGSTROM RESOLUTION CRYO-EM RECONSTRUCTION STRUCTURE OF SEMLIKI FOREST VIRUS (SFV) AND FITTING OF THE CAPSID PROTEIN STRUCTURE IN THE EM DENSITY | 3.4.21.90 |
| 1DYM | HUMICOLA INSOLENS ENDOCELLULASE CEL7B (EG 1) E197A MUTANT | 3.2.1.4 |
| 1DYN | CRYSTAL STRUCTURE AT 2.2 ANGSTROMS RESOLUTION OF THE PLECKSTRIN HOMOLOGY DOMAIN FROM HUMAN DYNAMIN | 3.6.5.5 |
| 1DYO | XYLAN-BINDING DOMAIN FROM CBM 22, FORMALLY X6B DOMAIN | 3.2.1.8 |
| 1DYP | 1,3-ALPHA-1,4-BETA-D-GALACTOSE-4-SULFATE-3,6-ANHYDRO-D-GALACTOSE 4 GALACTOHYDROLASE | 3.2.1.83 |
| 1DYS | ENDOGLUCANASE CEL6B FROM HUMICOLA INSOLENS | 3.2.1.4 |
| 1DYT | X-RAY CRYSTAL STRUCTURE OF ECP (RNASE 3) AT 1.75 A | 3.1.27 |
| 1DZA | 3-D STRUCTURE OF A HP-RNASE | 3.1.27.5 4.6.1.18 |
| 1E0A | CDC42 COMPLEXED WITH THE GTPASE BINDING DOMAIN OF P21 ACTIVATED KINASE | 3.6.5.2 |
| 1E0E | N-TERMINAL ZINC-BINDING HHCC DOMAIN OF HIV-2 INTEGRASE | 3.4.23.47 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1E0F | CRYSTAL STRUCTURE OF THE HUMAN ALPHA-THROMBIN-HAEMADIN COMPLEX: AN EXOSITE II-BINDING INHIBITOR | 3.4.21.5 |
| 1E0J | GP4D HELICASE FROM PHAGE T7 ADPNP COMPLEX | 2.7.7 3.6.4.12 |
| 1E0K | GP4D HELICASE FROM PHAGE T7 | 2.7.7 3.6.4.12 |
| 1E0V | XYLANASE 10A FROM SREPTOMYCES LIVIDANS. CELLOBIOSYL-ENZYME INTERMEDIATE AT 1.7 A | 3.2.1.8 |
| 1E0W | XYLANASE 10A FROM SREPTOMYCES LIVIDANS. NATIVE STRUCTURE AT 1.2 ANGSTROM RESOLUTION | 3.2.1.8 |
| 1E0X | XYLANASE 10A FROM SREPTOMYCES LIVIDANS. XYLOBIOSYL-ENZYME INTERMEDIATE AT 1.65 A | 3.2.1.8 |
| 1E1A | CRYSTAL STRUCTURE OF DFPASE FROM LOLIGO VULGARIS | 3.1.8.2 |
| 1E1E | CRYSTAL STRUCTURE OF A MONOCOT (MAIZE ZMGLU1) BETA-GLUCOSIDASE | 3.2.1.21 3.2.1.182 |
| 1E1F | CRYSTAL STRUCTURE OF A MONOCOT (MAIZE ZMGLU1) BETA-GLUCOSIDASE IN COMPLEX WITH P-NITROPHENYL-BETA-D-THIOGLUCOSIDE | 3.2.1.21 3.2.1.182 |
| 1E1H | CRYSTAL STRUCTURE OF RECOMBINANT BOTULINUM NEUROTOXIN TYPE A LIGHT CHAIN, SELF-INHIBITING ZN ENDOPEPTIDASE. | 3.4.24.69 |
| 1E1Z | CRYSTAL STRUCTURE OF AN ARYLSULFATASE A MUTANT C69S | 3.1.6.8 |
| 1E21 | RIBONUCLEASE 1 DES1-7 CRYSTAL STRUCTURE AT 1.9A | 3.1.27.5 4.6.1.18 |
| 1E25 | THE HIGH RESOLUTION STRUCTURE OF PER-1 CLASS A BETA-LACTAMASE | 3.5.2.6 |
| 1E2S | CRYSTAL STRUCTURE OF AN ARYLSULFATASE A MUTANT C69A | 3.1.6.8 |
| 1E32 | STRUCTURE OF THE N-TERMINAL DOMAIN AND THE D1 AAA DOMAIN OF MEMBRANE FUSION ATPASE P97 | 3.6.4.6 |
| 1E33 | CRYSTAL STRUCTURE OF AN ARYLSULFATASE A MUTANT P426L | 3.1.6.8 |
| 1E34 | PORCINE PANCREATIC ELASTASE COMPLEXED WITH (3S, 4S)N-PARA- TOLUENESULPHONYL-3-ETHYL-4-(CARBOXYLIC ACID) PYRROLIDIN-2-ONE SOAKED IN PH 9 BUFFER FOR ONE MINUTE | 3.4.21.36 |
| 1E35 | PORCINE PANCREATIC ELASTASE COMPLEXED WITH (3S, 4S)N-PARA-TOLUENESULPHONYL -3-ETHYL-4-(CARBOXYLIC ACID)PYRROLIDIN-2-ONE SOAKED IN PH 9 BUFFER FOR TWO MINUTES | 3.4.21.36 |
| 1E36 | PORCINE PANCREATIC ELASTASE COMPLEXED WITH (3S, 4S)N-PARA-NITROBENZENESULPHONYL -3-ETHYL-4-(CARBOXYLIC ACID)PYRROLIDIN-2-ONE | 3.4.21.36 |
| 1E37 | PORCINE PANCREATIC ELASTASE COMPLEXED WITH (3S, 4S)N-PARA-NITROBENZENESULPHONYL -3-ETHYL-4-(CARBOXYLIC ACID)PYRROLIDIN-2-ONE SOAKED IN PH 9 BUFFER FOR 1 MINUTE | 3.4.21.36 |
| 1E38 | PORCINE PANCREATIC ELASTASE COMPLEXED WITH (3S, 4S)N-PARA-NITROBENZENESULPHONYL -3-ETHYL-4-(CARBOXYLIC ACID)PYRROLIDIN-2-ONE SOAKED IN PH 9 BUFFER FOR 2 MINUTES | 3.4.21.36 |
| 1E3A | A SLOW PROCESSING PRECURSOR PENICILLIN ACYLASE FROM ESCHERICHIA COLI | 3.5.1.11 |
| 1E3C | CRYSTAL STRUCTURE OF AN ARYLSULFATASE A MUTANT C69S SOAKED IN SYNTHETIC SUBSTRATE | 3.1.6.8 |
| 1E3Q | TORPEDO CALIFORNICA ACETYLCHOLINESTERASE COMPLEXED WITH BW284C51 | 3.1.1.7 |
| 1E3U | MAD STRUCTURE OF OXA10 CLASS D BETA-LACTAMASE | 3.5.2.6 |
| 1E3X | NATIVE STRUCTURE OF CHIMAERIC AMYLASE FROM B. AMYLOLIQUEFACIENS AND B. LICHENIFORMIS AT 1.92A | 3.2.1.1 |
| 1E3Z | ACARBOSE COMPLEX OF CHIMAERIC AMYLASE FROM B. AMYLOLIQUEFACIENS AND B. LICHENIFORMIS AT 1.93A | 3.2.1.1 |
| 1E40 | TRIS/MALTOTRIOSE COMPLEX OF CHIMAERIC AMYLASE FROM B. AMYLOLIQUEFACIENS AND B. LICHENIFORMIS AT 2.2A | 3.2.1.1 |
| 1E43 | NATIVE STRUCTURE OF CHIMAERIC AMYLASE FROM B. AMYLOLIQUEFACIENS AND B. LICHENIFORMIS AT 1.7A | 3.2.1.1 |
| 1E4D | STRUCTURE OF OXA10 BETA-LACTAMASE AT PH 8.3 | 3.5.2.6 |
| 1E4I | 2-DEOXY-2-FLUORO-BETA-D-GLUCOSYL/ENZYME INTERMEDIATE COMPLEX OF THE BETA-GLUCOSIDASE FROM BACILLUS POLYMYXA | 3.2.1.21 |
| 1E4L | CRYSTAL STRUCTURE OF THE INACTIVE MUTANT MONOCOT (MAIZE ZMGLU1) BETA-GLUCOSIDASE ZM GLU191ASP | 3.2.1.21 3.2.1.182 |
| 1E4M | MYROSINASE FROM SINAPIS ALBA | 3.2.1.147 |
| 1E4N | CRYSTAL STRUCTURE OF THE INACTIVE MUTANT MONOCOT (MAIZE ZMGLU1) BETA-GLUCOSIDASE ZMGLUE191D IN COMPLEX WITH THE NATURAL AGLYCONE DIMBOA | 3.2.1.21 3.2.1.182 |
| 1E55 | CRYSTAL STRUCTURE OF THE INACTIVE MUTANT MONOCOT (MAIZE ZMGLU1) BETA-GLUCOSIDASE ZMGLUE191D IN COMPLEX WITH THE COMPETITIVE INHIBITOR DHURRIN | 3.2.1.21 3.2.1.182 |
| 1E56 | CRYSTAL STRUCTURE OF THE INACTIVE MUTANT MONOCOT (MAIZE ZMGLU1) BETA-GLUCOSIDASE ZMGLUE191D IN COMPLEX WITH THE NATURAL SUBSTRATE DIMBOA-BETA-D-GLUCOSIDE | 3.2.1.21 3.2.1.182 |
| 1E5B | INTERNAL XYLAN BINDING DOMAIN FROM C. FIMI XYN10A, R262G MUTANT | 3.2.1.8 3.5.1 |
| 1E5C | INTERNAL XYLAN BINDING DOMAIN FROM C. FIMI XYN10A, R262G MUTANT | 3.2.1.8 3.5.1 |
| 1E5J | ENDOGLUCANASE CEL5A FROM BACILLUS AGARADHAERENS IN THE TETRAGONAL CRYSTAL FORM IN COMPLEX WITH METHYL-4II-S-ALPHA-CELLOBIOSYL-4II-THIO-BETA-CELLOBIOSIDE | 3.2.1.4 |
| 1E5N | E246C MUTANT OF P FLUORESCENS SUBSP. CELLULOSA XYLANASE A IN COMPLEX WITH XYLOPENTAOSE | 3.2.1.8 |
| 1E5O | ENDOTHIAPEPSIN COMPLEX WITH INHIBITOR DB2 | 3.4.23.23 3.4.23.22 |
| 1E5T | PROLYL OLIGOPEPTIDASE FROM PORCINE BRAIN, MUTANT | 3.4.21.26 |
| 1E66 | STRUCTURE OF ACETYLCHOLINESTERASE COMPLEXED WITH (-)-HUPRINE X AT 2.1A RESOLUTION | 3.1.1.7 |
| 1E6A | FLUORIDE-INHIBITED SUBSTRATE COMPLEX OF SACCHAROMYCES CEREVISIAE INORGANIC PYROPHOSPHATASE | 3.6.1.1 |
| 1E6N | CHITINASE B FROM SERRATIA MARCESCENS INACTIVE MUTANT E144Q IN COMPLEX WITH N-ACETYLGLUCOSAMINE-PENTAMER | 3.2.1.14 |
| 1E6Q | MYROSINASE FROM SINAPIS ALBA WITH THE BOUND TRANSITION STATE ANALOGUE GLUCO-TETRAZOLE | 3.2.3.1 3.2.1.147 |
| 1E6S | MYROSINASE FROM SINAPIS ALBA WITH BOUND GLUCO-HYDROXIMOLACTAM AND SULFATE | 3.2.1.147 |
| 1E6X | MYROSINASE FROM SINAPIS ALBA WITH A BOUND TRANSITION STATE ANALOGUE,D-GLUCONO-1,5-LACTONE | 3.2.3.1 3.2.1.147 |
| 1E6Z | CHITINASE B FROM SERRATIA MARCESCENS WILDTYPE IN COMPLEX WITH CATALYTIC INTERMEDIATE | 3.2.1.14 |
| 1E70 | 2-F-GLUCOSYLATED MYROSINASE FROM SINAPIS ALBA | 3.2.1.147 |
| 1E71 | MYROSINASE FROM SINAPIS ALBA WITH BOUND ASCORBATE | 3.2.1.147 |
| 1E72 | MYROSINASE FROM SINAPIS ALBA WITH BOUND GLUCO-HYDROXIMOLACTAM AND SULFATE OR ASCORBATE | 3.2.3.1 3.2.1.147 |
| 1E73 | 2-F-GLUCOSYLATED MYROSINASE FROM SINAPIS ALBA WITH BOUND L-ASCORBATE | 3.2.1.147 |
| 1E7D | ENDONUCLEASE VII (ENDOVII) FFROM PHAGE T4 | 3.1.22.4 3.1 |
| 1E7L | ENDONUCLEASE VII (ENDOVII) N62D MUTANT FROM PHAGE T4 | 3.1.22.4 3.1 |
| 1E80 | ENDOTHIAPEPSIN COMPLEX WITH RENIN INHIBITOR MERCK-KGAA-EMD56133 | 3.4.23.23 3.4.23.22 |
| 1E81 | ENDOTHIAPEPSIN COMPLEX WITH RENIN INHIBITOR MERCK-KGAA-EMD61395 | 3.4.23.23 3.4.23.22 |
| 1E82 | ENDOTHIAPEPSIN COMPLEX WITH RENIN INHIBITOR MERCK-KGAA-EMD59601 | 3.4.23.23 3.4.23.22 |
| 1E8L | NMR SOLUTION STRUCTURE OF HEN LYSOZYME | 3.2.1.17 |
| 1E8M | PROLYL OLIGOPEPTIDASE FROM PORCINE BRAIN, MUTANT, COMPLEXED WITH INHIBITOR | 3.4.21.26 |
| 1E8N | PROLYL OLIGOPEPTIDASE FROM PORCINE BRAIN, MUTANT, COMPLEXED WITH PEPTIDE | 3.4.21.26 |
| 1E8P | CHARACTERISATION OF THE CELLULOSE DOCKING DOMAIN FROM PIROMYCES EQUI | 3.2.1.4 |
| 1E8Q | CHARACTERISATION OF THE CELLULOSE DOCKING DOMAIN FROM PIROMYCES EQUI | 3.2.1.4 |
| 1E8R | SOLUTION STRUCTURE OF TYPE X CBD | 3.2.1.8 |
| 1E8T | STRUCTURE OF THE MULTIFUNCTIONAL PARAMYXOVIRUS HEMAGGLUTININ-NEURAMINIDASE | 3.2.1.18 |
| 1E8U | STRUCTURE OF THE MULTIFUNCTIONAL PARAMYXOVIRUS HEMAGGLUTININ-NEURAMINIDASE | 3.2.1.18 |
| 1E8V | STRUCTURE OF THE MULTIFUNCTIONAL PARAMYXOVIRUS HEMAGGLUTININ-NEURAMINIDASE | 3.2.1.18 |
| 1E94 | HSLV-HSLU FROM E.COLI | 3.4.25.2 |
| 1E96 | STRUCTURE OF THE RAC/P67PHOX COMPLEX | 3.6.5.2 |
| 1E9G | STRUCTURE OF INORGANIC PYROPHOSPHATASE | 3.6.1.1 |
| 1E9K | THE STRUCTURE OF THE RACK1 INTERACTION SITES LOCATED WITHIN THE UNIQUE N-TERMINAL REGION OF THE CAMP-SPECIFIC PHOSPHODIESTERASE, PDE4D5. | 3.1.4.53 |
| 1E9L | THE CRYSTAL STRUCTURE OF NOVEL MAMMALIAN LECTIN YM1 SUGGESTS A SACCHARIDE BINDING SITE | 3.2.1.52 |
| 1E9N | A SECOND DIVALENT METAL ION IN THE ACTIVE SITE OF A NEW CRYSTAL FORM OF HUMAN APURINIC/APYRIMIDINIC ENDONUCLEASE, APE1, AND ITS IMPLICATIONS FOR THE CATALYTIC MECHANISM | 4.2.99.18 3.1 |
| 1E9Y | CRYSTAL STRUCTURE OF HELICOBACTER PYLORI UREASE IN COMPLEX WITH ACETOHYDROXAMIC ACID | 3.5.1.5 |
| 1E9Z | CRYSTAL STRUCTURE OF HELICOBACTER PYLORI UREASE | 3.5.1.5 |
| 1EA5 | NATIVE ACETYLCHOLINESTERASE (E.C. 3.1.1.7) FROM TORPEDO CALIFORNICA AT 1.8A RESOLUTION | 3.1.1.7 |
| 1EA6 | N-TERMINAL 40KDA FRAGMENT OF NHPMS2 COMPLEXED WITH ADP | 3.1 |
| 1EA9 | CYCLOMALTODEXTRINASE | 3.2.1.54 |
| 1EAG | SECRETED ASPARTIC PROTEINASE (SAP2) FROM CANDIDA ALBICANS COMPLEXED WITH A70450 | 3.4.23.24 |
| 1EAH | PV2L COMPLEXED WITH ANTIVIRAL AGENT SCH48973 | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1EAI | COMPLEX OF ASCARIS CHYMOTRPSIN/ELASTASE INHIBITOR WITH PORCINE ELASTASE | 3.4.21.36 |
| 1EAK | CATALYTIC DOMAIN OF PROMMP-2 E404Q MUTANT | 3.4.24.24 |
| 1EAS | NONPEPTIDIC INHIBITORS OF HUMAN LEUKOCYTE ELASTASE. 3. DESIGN, SYNTHESIS, X-RAY CRYSTALLOGRAPHIC ANALYSIS, AND STRUCTURE-ACTIVITY RELATIONSHIPS FOR A SERIES OF ORALLY ACTIVE 3-AMINO-6-PHENYLPYRIDIN-2-ONE TRIFLUOROMETHYL KETONES | 3.4.21.36 |
| 1EAT | NONPEPTIDIC INHIBITORS OF HUMAN LEUKOCYTE ELASTASE. 5. DESIGN, SYNTHESIS, AND X-RAY CRYSTALLOGRAPHY OF A SERIES OF ORALLY ACTIVE 5-AMINO-PYRIMIDIN-6-ONE-CONTAINING TRIFLUOROMETHYLKETONES | 3.4.21.36 |
| 1EAU | NONPEPTIDIC INHIBITORS OF HUMAN LEUKOCYTE ELASTASE. 6. DESIGN OF A POTENT, INTRATRACHEALLY ACTIVE, PYRIDONE-BASED TRIFLUOROMETHYL KETONE | 3.4.21.36 |
| 1EAW | CRYSTAL STRUCTURE OF THE MTSP1 (MATRIPTASE)-BPTI (APROTININ) COMPLEX | 3.4.21 3.4.21.109 |
| 1EAX | CRYSTAL STRUCTURE OF MTSP1 (MATRIPTASE) | 3.4.21 3.4.21.109 |
| 1EB2 | TRYPSIN INHIBITOR COMPLEX (BPO) | 3.4.21.4 |
| 1EB6 | DEUTEROLYSIN FROM ASPERGILLUS ORYZAE | 3.4.24.39 |
| 1EBK | STRUCTURAL AND KINETIC ANALYSIS OF DRUG RESISTANT MUTANTS OF HIV-1 PROTEASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1EBM | CRYSTAL STRUCTURE OF THE HUMAN 8-OXOGUANINE GLYCOSYLASE (HOGG1) BOUND TO A SUBSTRATE OLIGONUCLEOTIDE | 3.2.2 4.2.99.18 |
| 1EBW | HIV-1 PROTEASE IN COMPLEX WITH THE INHIBITOR BEA322 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1EBY | HIV-1 PROTEASE IN COMPLEX WITH THE INHIBITOR BEA369 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1EBZ | HIV-1 PROTEASE IN COMPLEX WITH THE INHIBITOR BEA388 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1EC0 | HIV-1 PROTEASE IN COMPLEX WITH THE INHIBITOR BEA403 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1EC1 | HIV-1 PROTEASE IN COMPLEX WITH THE INHIBITOR BEA409 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1EC2 | HIV-1 PROTEASE IN COMPLEX WITH THE INHIBITOR BEA428 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1EC3 | HIV-1 PROTEASE IN COMPLEX WITH THE INHIBITOR MSA367 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1ECE | ACIDOTHERMUS CELLULOLYTICUS ENDOCELLULASE E1 CATALYTIC DOMAIN IN COMPLEX WITH A CELLOTETRAOSE | 3.2.1.4 |
| 1ECV | CRYSTAL STRUCTURE OF PROTEIN TYROSINE PHOSPHATASE 1B COMPLEXED WITH 5-IODO-2-(OXALYL-AMINO)-BENZOIC ACID | 3.1.3.48 |
| 1ECW | CRYSTAL STRUCTURE OF SIMIAN IMMUNODEFICIENCY VIRUS MATRIX ANTIGEN (SIV MA) AT 293K. | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1ED1 | CRYSTAL STRUCTURE OF SIMIAN IMMUNODEFICIENCY VIRUS MATRIX ANTIGEN (SIV MA) AT 100K. | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1ED7 | SOLUTION STRUCTURE OF THE CHITIN-BINDING DOMAIN OF BACILLUS CIRCULANS WL-12 CHITINASE A1 | 3.2.1.14 |
| 1ED8 | STRUCTURE OF E. COLI ALKALINE PHOSPHATASE INHIBITED BY THE INORGANIC PHOSPHATE AT 1.75A RESOLUTION | 3.1.3.1 |
| 1ED9 | STRUCTURE OF E. COLI ALKALINE PHOSPHATASE WITHOUT THE INORGANIC PHOSPHATE AT 1.75A RESOLUTION | 3.1.3.1 |
| 1EDB | CRYSTALLOGRAPHIC AND FLUORESCENCE STUDIES OF THE INTERACTION OF HALOALKANE DEHALOGENASE WITH HALIDE IONS: STUDIES WITH HALIDE COMPOUNDS REVEAL A HALIDE BINDING SITE IN THE ACTIVE SITE | 3.8.1.5 |
| 1EDD | CRYSTALLOGRAPHIC AND FLUORESCENCE STUDIES OF THE INTERACTION OF HALOALKANE DEHALOGENASE WITH HALIDE IONS: STUDIES WITH HALIDE COMPOUNDS REVEAL A HALIDE BINDING SITE IN THE ACTIVE SITE | 3.8.1.5 |
| 1EDE | REFINED X-RAY STRUCTURES OF HALOALKANE DEHALOGENASE AT PH 6.2 AND PH 8.2 AND IMPLICATIONS FOR THE REACTION MECHANISM | 3.8.1.5 |
| 1EDG | SINGLE CRYSTAL STRUCTURE DETERMINATION OF THE CATALYTIC DOMAIN OF CELCCA CARRIED OUT AT 15 DEGREE C | 3.2.1.4 |
| 1EDM | EPIDERMAL GROWTH FACTOR-LIKE DOMAIN FROM HUMAN FACTOR IX | 3.4.21.22 |
| 1EDQ | CRYSTAL STRUCTURE OF CHITINASE A FROM S. MARCESCENS AT 1.55 ANGSTROMS | 3.2.1.14 |
| 1EDT | CRYSTAL STRUCTURE OF ENDO-BETA-N-ACETYLGLUCOSAMINIDASE H AT 1.9 ANGSTROMS RESOLUTION: ACTIVE SITE GEOMETRY AND SUBSTRATE RECOGNITION | 3.2.1.96 |
| 1EE3 | CADMIUM-SUBSTITUTED BOVINE PANCREATIC CARBOXYPEPTIDASE A (ALFA-FORM) AT PH 7.5 AND 2 MM CHLORIDE IN MONOCLINIC CRYSTAL FORM | 3.4.17.1 |
| 1EE8 | CRYSTAL STRUCTURE OF MUTM (FPG) PROTEIN FROM THERMUS THERMOPHILUS HB8 | 3.2.2.23 4.2.99.18 |
| 1EEA | ACETYLCHOLINESTERASE | 3.1.1.7 |
| 1EED | X-RAY CRYSTALLOGRAPHIC ANALYSIS OF INHIBITION OF ENDOTHIAPEPSIN BY CYCLOHEXYL RENIN INHIBITORS | 3.4.23.22 |
| 1EEN | CRYSTAL STRUCTURE OF PROTEIN TYROSINE PHOSPHATASE 1B COMPLEXED WITH ACETYL-D-A-D-BPA-PTYR-L-I-P-Q-Q-G | 3.1.3.48 |
| 1EEO | CRYSTAL STRUCTURE OF PROTEIN TYROSINE PHOSPHATASE 1B COMPLEXED WITH ACETYL-E-L-E-F-PTYR-M-D-Y-E-NH2 | 3.1.3.48 |
| 1EES | SOLUTION STRUCTURE OF CDC42HS COMPLEXED WITH A PEPTIDE DERIVED FROM P-21 ACTIVATED KINASE, NMR, 20 STRUCTURES | 3.6.5.2 |
| 1EET | HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH THE INHIBITOR MSC204 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1EF0 | CRYSTAL STRUCTURE OF PI-SCEI MINIPRECURSOR | 7.1.2.2 3.1 |
| 1EF2 | CRYSTAL STRUCTURE OF MANGANESE-SUBSTITUTED KLEBSIELLA AEROGENES UREASE | 3.5.1.5 |
| 1EF7 | CRYSTAL STRUCTURE OF HUMAN CATHEPSIN X | 3.4.18.1 |
| 1EG1 | ENDOGLUCANASE I FROM TRICHODERMA REESEI | 3.2.1.4 |
| 1EGN | CELLOBIOHYDROLASE CEL7A (E223S, A224H, L225V, T226A, D262G) MUTANT | 3.2.1.91 |
| 1EGQ | ENHANCEMENT OF ENZYME ACTIVITY THROUGH THREE-PHASE PARTITIONING: CRYSTAL STRUCTURE OF A MODIFIED SERINE PROTEINASE AT 1.5 A RESOLUTION | 3.4.21.64 |
| 1EGZ | CELLULASE CEL5 FROM ERWINIA CHRYSANTHEMI, A FAMILY GH 5-2 ENZYME | 3.2.1.4 |
| 1EH3 | R210K N-TERMINAL LOBE HUMAN LACTOFERRIN | 3.4.21 |
| 1EH5 | CRYSTAL STRUCTURE OF PALMITOYL PROTEIN THIOESTERASE 1 COMPLEXED WITH PALMITATE | 3.1.2.22 |
| 1EH9 | CRYSTAL STRUCTURE OF SULFOLOBUS SOLFATARICUS GLYCOSYLTREHALOSE TREHALOHYDROLASE | 3.2.1.1 3.2.1.141 |
| 1EHA | CRYSTAL STRUCTURE OF GLYCOSYLTREHALOSE TREHALOHYDROLASE FROM SULFOLOBUS SOLFATARICUS | 3.2.1.1 3.2.1.141 |
| 1EHN | CRYSTAL STRUCTURE OF CHITINASE A MUTANT E315Q COMPLEXED WITH OCTA-N-ACETYLCHITOOCTAOSE (NAG)8. | 3.2.1.14 |
| 1EHY | X-RAY STRUCTURE OF THE EPOXIDE HYDROLASE FROM AGROBACTERIUM RADIOBACTER AD1 | 3.3.2.10 3.3.2.3 |
| 1EI5 | CRYSTAL STRUCTURE OF A D-AMINOPEPTIDASE FROM OCHROBACTRUM ANTHROPI | 3.4.11.19 |
| 1EI6 | CRYSTAL STRUCTURE OF PHOSPHONOACETATE HYDROLASE COMPLEXED WITH PHOSPHONOFORMATE | 3.11.1.2 |
| 1EI9 | CRYSTAL STRUCTURE OF PALMITOYL PROTEIN THIOESTERASE 1 | 3.1.2.22 |
| 1EIB | CRYSTAL STRUCTURE OF CHITINASE A MUTANT D313A COMPLEXED WITH OCTA-N-ACETYLCHITOOCTAOSE (NAG)8. | 3.2.1.14 |
| 1EIC | CRYSTAL STRUCTURE OF F120A MUTANT OF BOVINE PANCREATIC RIBONUCLEASE A | 3.1.27.5 4.6.1.18 |
| 1EID | CRYSTAL STRUCTURE OF F120G MUTANT OF BOVINE PANCREATIC RIBONUCLEASE A | 3.1.27.5 4.6.1.18 |
| 1EIE | CRYSTAL STRUCTURE OF F120W MUTANT OF BOVINE PANCREATIC RIBONUCLEASE A | 3.1.27.5 4.6.1.18 |
| 1EIN | THE STRUCTURAL ORIGINS OF INTERFACIAL ACTIVATION IN THERMOMYCES (HUMICOLA) LANUGINOSA LIPASE | 3.1.1.3 |
| 1EJA | STRUCTURE OF PORCINE TRYPSIN COMPLEXED WITH BDELLASTASIN, AN ANTISTASIN-TYPE INHIBITOR | 3.4.21.4 |
| 1EJM | CRYSTAL STRUCTURE OF THE BPTI ALA16LEU MUTANT IN COMPLEX WITH BOVINE TRYPSIN | 3.4.21.4 |
| 1EJN | UROKINASE PLASMINOGEN ACTIVATOR B-CHAIN INHIBITOR COMPLEX | 3.4.21.73 |
| 1EJR | CRYSTAL STRUCTURE OF THE D221A VARIANT OF KLEBSIELLA AEROGENES UREASE | 3.5.1.5 |
| 1EJS | CRYSTAL STRUCTURE OF THE H219N VARIANT OF KLEBSIELLA AEROGENES UREASE | 3.5.1.5 |
| 1EJT | CRYSTAL STRUCTURE OF THE H219Q VARIANT OF KLEBSIELLA AEROGENES UREASE | 3.5.1.5 |
| 1EJU | CRYSTAL STRUCTURE OF THE H320N VARIANT OF KLEBSIELLA AEROGENES UREASE | 3.5.1.5 |
| 1EJV | CRYSTAL STRUCTURE OF THE H320Q VARIANT OF KLEBSIELLA AEROGENES UREASE | 3.5.1.5 |
| 1EJW | CRYSTAL STRUCTURE OF WILD-TYPE KLEBSIELLA AEROGENES UREASE AT 298K | 3.5.1.5 |
| 1EJX | CRYSTAL STRUCTURE OF WILD-TYPE KLEBSIELLA AEROGENES UREASE AT 100K | 3.5.1.5 |
| 1EKB | THE SERINE PROTEASE DOMAIN OF ENTEROPEPTIDASE BOUND TO INHIBITOR VAL-ASP-ASP-ASP-ASP-LYS-CHLOROMETHANE | 3.4.21.9 |
| 1EKE | CRYSTAL STRUCTURE OF CLASS II RIBONUCLEASE H (RNASE HII) WITH MES LIGAND | 3.1.26.4 |
| 1EL1 | X-RAY CRYSTAL STRUCTURE ANALYSIS OF CANINE MILK LYSOZYME (HOLO-TYPE) | 3.2.1.17 |
| 1ELA | ANALOGOUS INHIBITORS OF ELASTASE DO NOT ALWAYS BIND ANALOGOUSLY | 3.4.21.36 |
| 1ELB | ANALOGOUS INHIBITORS OF ELASTASE DO NOT ALWAYS BIND ANALOGOUSLY | 3.4.21.36 |
| 1ELC | ANALOGOUS INHIBITORS OF ELASTASE DO NOT ALWAYS BIND ANALOGOUSLY | 3.4.21.36 |
| 1ELD | STRUCTURAL ANALYSIS OF THE ACTIVE SITE OF PORCINE PANCREATIC ELASTASE BASED ON THE X-RAY CRYSTAL STRUCTURES OF COMPLEXES WITH TRIFLUOROACETYL-DIPEPTIDE-ANILIDE INHIBITORS | 3.4.21.36 |
| 1ELE | STRUCTURAL ANALYSIS OF THE ACTIVE SITE OF PORCINE PANCREATIC ELASTASE BASED ON THE X-RAY CRYSTAL STRUCTURES OF COMPLEXES WITH TRIFLUOROACETYL-DIPEPTIDE-ANILIDE INHIBITORS | 3.4.21.36 |
| 1ELF | NATURE OF THE INACTIVATION OF ELASTASE BY N-PEPTIDYL-O-AROYL HYDROXYLAMINE AS A FUNCTION OF PH | 3.4.21.36 |
| 1ELG | NATURE OF THE INACTIVATION OF ELASTASE BY N-PEPTIDYL-O-AROYL HYDROXYLAMINE AS A FUNCTION OF PH | 3.4.21.36 |
| 1ELL | CADMIUM-SUBSTITUTED BOVINE PANCREATIC CARBOXYPEPTIDASE A (ALFA-FORM) AT PH 7.5 AND 0.25 M CHLORIDE IN MONOCLINIC CRYSTAL FORM. | 3.4.17.1 |
| 1ELM | CADMIUM-SUBSTITUTED BOVINE PACREATIC CARBOXYPEPTIDASE A (ALFA-FORM) AT PH 5.5 AND 2 MM CHLORIDE IN MONOCLINIC CRYSTAL FORM. | 3.4.17.1 |
| 1ELT | STRUCTURE OF NATIVE PANCREATIC ELASTASE FROM NORTH ATLANTIC SALMON AT 1.61 ANGSTROMS RESOLUTION | 3.4.21.36 |
| 1ELV | CRYSTAL STRUCTURE OF THE CATALYTIC DOMAIN OF HUMAN COMPLEMENT C1S PROTEASE | 3.4.21.42 |
| 1ELX | E. COLI ALKALINE PHOSPHATASE MUTANT (S102A) | 3.1.3.1 |
| 1ELY | E. COLI ALKALINE PHOSPHATASE MUTANT (S102C) | 3.1.3.1 |
| 1ELZ | E. COLI ALKALINE PHOSPHATASE MUTANT (S102G) | 3.1.3.1 |
| 1EM9 | ROUS SARCOMA VIRUS CAPSID PROTEIN: N-TERMINAL DOMAIN | 3.4.23 |
| 1EMH | CRYSTAL STRUCTURE OF HUMAN URACIL-DNA GLYCOSYLASE BOUND TO UNCLEAVED SUBSTRATE-CONTAINING DNA | 3.2.2.3 3.2.2.27 |
| 1EMJ | URACIL-DNA GLYCOSYLASE BOUND TO DNA CONTAINING A 4'-THIO-2'DEOXYURIDINE ANALOG PRODUCT | 3.2.2.3 3.2.2.27 |
| 1EMS | CRYSTAL STRUCTURE OF THE C. ELEGANS NITFHIT PROTEIN | 3.6.1.29 3.5 |
| 1EN2 | UDA TETRASACCHARIDE COMPLEX. CRYSTAL STRUCTURE OF URTICA DIOICA AGGLUTININ, A SUPERANTIGEN PRESENTED BY MHC MOLECULES OF CLASS I AND CLASS II | 3.2.1.14 |
| 1EN7 | ENDONUCLEASE VII (ENDOVII) FROM PHAGE T4 | 3.1.22.4 3.1 |
| 1ENA | CRYSTAL STRUCTURES OF THE BINARY CA2+ AND PDTP COMPLEXES AND THE TERNARY COMPLEX OF THE ASP 21->GLU MUTANT OF STAPHYLOCOCCAL NUCLEASE. IMPLICATIONS FOR CATALYSIS AND LIGAND BINDING | 3.1.31.1 |
| 1ENC | CRYSTAL STRUCTURES OF THE BINARY CA2+ AND PDTP COMPLEXES AND THE TERNARY COMPLEX OF THE ASP 21->GLU MUTANT OF STAPHYLOCOCCAL NUCLEASE. IMPLICATIONS FOR CATALYSIS AND LIGAND BINDING | 3.1.31.1 |
| 1ENI | CRYSTAL STRUCTURE OF A PYRIMIDINE DIMER SPECIFIC EXCISION REPAIR ENZYME FROM BACTERIOPHAGE T4: REFINEMENT AT 1.45 ANGSTROMS AND X-RAY ANALYSIS OF THE THREE ACTIVE SITE MUTANTS | 3.1.25.1 3.2.2.17 4.2.99.18 |
| 1ENJ | CRYSTAL STRUCTURE OF A PYRIMIDINE DIMER SPECIFIC EXCISION REPAIR ENZYME FROM BACTERIOPHAGE T4: REFINEMENT AT 1.45 ANGSTROMS AND X-RAY ANALYSIS OF THE THREE ACTIVE SITE MUTANTS | 3.1.25.1 3.2.2.17 4.2.99.18 |
| 1ENK | CRYSTAL STRUCTURE OF A PYRIMIDINE DIMER SPECIFIC EXCISION REPAIR ENZYME FROM BACTERIOPHAGE T4: REFINEMENT AT 1.45 ANGSTROMS AND X-RAY ANALYSIS OF THE THREE ACTIVE SITE MUTANTS | 3.1.25.1 3.2.2.17 4.2.99.18 |
| 1ENM | UDA TRISACCHARIDE COMPLEX. CRYSTAL STRUCTURE OF URTICA DIOICA AGGLUTININ, A SUPERANTIGEN PRESENTED BY MHC MOLECULES OF CLASS I AND CLASS II | 3.2.1.14 |
| 1ENT | X-RAY ANALYSES OF ASPARTIC PROTEINASES. THE THREE-DIMENSIONAL STRUCTURE AT 2.1 ANGSTROMS RESOLUTION OF ENDOTHIAPEPSIN | 3.4.23.22 |
| 1ENX | STRUCTURAL COMPARISON OF TWO MAJOR ENDO-1,4-BETA-XYLANASES FROM TRICHODREMA REESEI | 3.2.1.8 |
| 1EO3 | INHIBITION OF ECORV ENDONUCLEASE BY DEOXYRIBO-3'-S-PHOSPHOROTHIOLATES: A HIGH RESOLUTION X-RAY CRYSTALLOGRAPHIC STUDY | 3.1.21.4 |
| 1EO4 | ECORV BOUND TO MN2+ AND COGNATE DNA CONTAINING A 3'S SUBSTITION AT THE CLEAVAGE SITE | 3.1.21.4 |
| 1EOI | CRYSTAL STRUCTURE OF ACID PHOSPHATASE FROM ESCHERICHIA BLATTAE COMPLEXED WITH THE TRANSITION STATE ANALOG MOLYBDATE | 3.1.3.2 |
| 1EOJ | DESIGN OF P1' AND P3' RESIDUES OF TRIVALENT THROMBIN INHIBITORS AND THEIR CRYSTAL STRUCTURES | 3.4.21.5 |
| 1EOK | CRYSTAL STRUCTURE OF ENDO-BETA-N-ACETYLGLUCOSAMINIDASE F3 | 3.2.1.96 |
| 1EOL | DESIGN OF P1' AND P3' RESIDUES OF TRIVALENT THROMBIN INHIBITORS AND THEIR CRYSTAL STRUCTURES | 3.4.21.5 |
| 1EOM | CRYSTAL STRUCTURE OF THE COMPLEX OF ENDO-BETA-N-ACETYLGLUCOSAMINIDASE F3 WITH A BIANTENNARY COMPLEX OCTASACCHARIDE | 3.2.1.96 |
| 1EON | ECORV BOUND TO 3'-S-PHOSPHOROTHIOLATE DNA AND CA2+ | 3.1.21.4 |
| 1EOO | ECORV BOUND TO COGNATE DNA | 3.1.21.4 |
| 1EOP | ECORV BOUND TO COGNATE DNA | 3.1.21.4 |
| 1EOQ | ROUS SARCOMA VIRUS CAPSID PROTEIN: C-TERMINAL DOMAIN | 3.4.23 |
| 1EOS | CRYSTAL STRUCTURE OF RIBONUCLEASE A COMPLEXED WITH URIDYLYL(2',5')GUANOSINE (PRODUCTIVE BINDING) | 3.1.27.5 4.6.1.18 |
| 1EOW | CRYSTAL STRUCTURE OF RIBONUCLEASE A COMPLEXED WITH URIDYLYL(2',5')GUANOSINE (NON-PRODUCTIVE BINDING) | 3.1.27.5 4.6.1.18 |
| 1EP4 | CRYSTAL STRUCTURE OF HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH S-1153 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1EP5 | CRYSTAL STRUCTURE OF THE CONSERVED CORE DOMAIN OF VENEZUALAN EQUINE ENCEPHALITIS CAPSID PROTEIN | 3.4.21 3.4.21.90 |
| 1EP6 | CRYSTAL STRUCTURE OF THE CONSERVED CORE DOMAIN OF VENEZUALAN EQUINE ENCEPHALITIS CAPSID PROTEIN | 3.4.21 3.4.21.90 |
| 1EPL | A STRUCTURAL COMPARISON OF 21 INHIBITOR COMPLEXES OF THE ASPARTIC PROTEINASE FROM ENDOTHIA PARASITICA | 3.4.23.22 |
| 1EPM | A STRUCTURAL COMPARISON OF 21 INHIBITOR COMPLEXES OF THE ASPARTIC PROTEINASE FROM ENDOTHIA PARASITICA | 3.4.23.22 |
| 1EPN | A STRUCTURAL COMPARISON OF 21 INHIBITOR COMPLEXES OF THE ASPARTIC PROTEINASE FROM ENDOTHIA PARASITICA | 3.4.23.22 |
| 1EPO | ENDOTHIA ASPARTIC PROTEINASE (ENDOTHIAPEPSIN) COMPLEXED WITH CP-81,282 (MOR PHE NLE CHF NME) | 3.4.23.22 |
| 1EPP | ENDOTHIA ASPARTIC PROTEINASE (ENDOTHIAPEPSIN) COMPLEXED WITH PD-130,693 (MAS PHE LYS+MTF STA MBA) | 3.4.23.22 |
| 1EPQ | ENDOTHIA ASPARTIC PROTEINASE (ENDOTHIAPEPSIN) COMPLEXED WITH PD-133,450 (SOT PHE GLY+SCC GCL) | 3.4.23.22 |
| 1EPR | ENDOTHIA ASPARTIC PROTEINASE (ENDOTHIAPEPSIN) COMPLEXED WITH PD-135,040 | 3.4.23.22 |
| 1EPT | REFINED 1.8 ANGSTROMS RESOLUTION CRYSTAL STRUCTURE OF PORCINE EPSILON-TRYPSIN | 3.4.21.4 |
| 1EPW | CRYSTAL STRUCTURE OF CLOSTRIDIUM NEUROTOXIN TYPE B | 3.4.24.69 |
| 1EPY | T4 LYSOZYME MUTANT, T21H/C54T/C97A/Q141H/T142H | 3.2.1.17 |
| 1EQ4 | CRYSTAL STRUCTURES OF SALT BRIDGE MUTANTS OF HUMAN LYSOZYME | 3.2.1.17 |
| 1EQ5 | CRYSTAL STRUCTURES OF SALT BRIDGE MUTANTS OF HUMAN LYSOZYME | 3.2.1.17 |
| 1EQ9 | CRYSTAL STRUCTURE OF FIRE ANT CHYMOTRYPSIN COMPLEXED TO PMSF | 3.4.21.1 |
| 1EQC | EXO-B-(1,3)-GLUCANASE FROM CANDIDA ALBICANS IN COMPLEX WITH CASTANOSPERMINE AT 1.85 A | 3.2.1.58 2.4.1 |
| 1EQE | CRYSTAL STRUCTURES OF SALT BRIDGE MUTANTS OF HUMAN LYSOZYME | 3.2.1.17 |
| 1EQP | EXO-B-(1,3)-GLUCANASE FROM CANDIDA ALBICANS | 3.2.1.58 2.4.1 |
| 1EQV | SIMPLIFICATION OF A PROTEIN LOOP IN STAPHYLOCOCCAL NUCLEASE | 3.1.31.1 |
| 1ER8 | THE ACTIVE SITE OF ASPARTIC PROTEINASES | 3.4.23.22 |
| 1ERI | X-RAY STRUCTURE OF THE DNA-ECO RI ENDONUCLEASE-DNA RECOGNITION COMPLEX: THE RECOGNITION NETWORK AND THE INTEGRATION OF RECOGNITION AND CLEAVAGE | 3.1.21.4 |
| 1ERM | X-RAY CRYSTAL STRUCTURE OF TEM-1 BETA LACTAMASE IN COMPLEX WITH A DESIGNED BORONIC ACID INHIBITOR (1R)-1-ACETAMIDO-2-(3-CARBOXYPHENYL)ETHANE BORONIC ACID | 3.5.2.6 |
| 1ERO | X-RAY CRYSTAL STRUCTURE OF TEM-1 BETA LACTAMASE IN COMPLEX WITH A DESIGNED BORONIC ACID INHIBITOR (1R)-2-PHENYLACETAMIDO-2-(3-CARBOXYPHENYL)ETHYL BORONIC ACID | 3.5.2.6 |
| 1ERQ | X-RAY CRYSTAL STRUCTURE OF TEM-1 BETA LACTAMASE IN COMPLEX WITH A DESIGNED BORONIC ACID INHIBITOR (1R)-1-ACETAMIDO-2-(3-CARBOXY-2-HYDROXYPHENYL)ETHYL BORONIC ACID | 3.5.2.6 |
| 1ERZ | CRYSTAL STRUCTURE OF N-CARBAMYL-D-AMINO ACID AMIDOHYDROLASE WITH A NOVEL CATALYTIC FRAMEWORK COMMON TO AMIDOHYDROLASES | 3.5.1.77 |
| 1ES2 | S96A MUTANT OF STREPTOMYCES K15 DD-TRANSPEPTIDASE | 3.4.16.4 |
| 1ES3 | C98A MUTANT OF STREPTOMYCES K15 DD-TRANSPEPTIDASE | 3.4.16.4 |
| 1ES4 | C98N MUTANT OF STREPTOMYCES K15 DD-TRANSPEPTIDASE | 3.4.16.4 |
| 1ES5 | S216A MUTANT OF STREPTOMYCES K15 DD-TRANSPEPTIDASE | 3.4.16.4 |
| 1ES8 | CRYSTAL STRUCTURE OF FREE BGLII | 3.1.21.4 |
| 1ES9 | X-RAY CRYSTAL STRUCTURE OF R22K MUTANT OF THE MAMMALIAN BRAIN PLATELET-ACTIVATING FACTOR ACETYLHYDROLASES (PAF-AH) | 3.1.1.47 |
| 1ESA | DIRECT STRUCTURE OBSERVATION OF AN ACYL-ENZYME INTERMEDIATE IN THE HYDROLYSIS OF AN ESTER SUBSTRATE BY ELASTASE | 3.4.21.36 |
| 1ESB | DIRECT STRUCTURE OBSERVATION OF AN ACYL-ENZYME INTERMEDIATE IN THE HYDROLYSIS OF AN ESTER SUBSTRATE BY ELASTASE | 3.4.21.36 |
| 1ESC | THE MOLECULAR MECHANISM OF ENANTIORECOGNITION BY ESTERASES | 3.1.1 |
| 1ESD | THE MOLECULAR MECHANISM OF ENANTIORECOGNITION BY ESTERASES | 3.1.1 |
| 1ESE | THE MOLECULAR MECHANISM OF ENANTIORECOGNITION BY ESTERASES | 3.1.1 |
| 1ESG | RESTRICTION ENDONUCLEASE BAMHI BOUND TO A NON-SPECIFIC DNA. | 3.1.21.4 |
| 1ESI | R248L MUTANT OF STREPTOMYCES K15 DD-TRANSPEPTIDASE | 3.4.16.4 |
| 1ESP | NEUTRAL PROTEASE MUTANT E144S | 3.4.24.28 |
| 1EST | THE ATOMIC STRUCTURE OF CRYSTALLINE PORCINE PANCREATIC ELASTASE AT 2.5 ANGSTROMS RESOLUTION. COMPARISONS WITH THE STRUCTURE OF ALPHA-CHYMOTRYPSIN | 3.4.21.36 |
| 1ESU | S235A MUTANT OF TEM1 BETA-LACTAMASE | 3.5.2.6 |
| 1ETH | TRIACYLGLYCEROL LIPASE/COLIPASE COMPLEX | 3.1.1.3 |
| 1ETR | REFINED 2.3 ANGSTROMS X-RAY CRYSTAL STRUCTURE OF BOVINE THROMBIN COMPLEXES FORMED WITH THE BENZAMIDINE AND ARGININE-BASED THROMBIN INHIBITORS NAPAP, 4-TAPAP AND MQPA: A STARTING POINT FOR IMPROVING ANTITHROMBOTICS | 3.4.21.5 |
| 1ETS | REFINED 2.3 ANGSTROMS X-RAY CRYSTAL STRUCTURE OF BOVINE THROMBIN COMPLEXES FORMED WITH THE BENZAMIDINE AND ARGININE-BASED THROMBIN INHIBITORS NAPAP, 4-TAPAP AND MQPA: A STARTING POINT FOR IMPROVING ANTITHROMBOTICS | 3.4.21.5 |
| 1ETT | REFINED 2.3 ANGSTROMS X-RAY CRYSTAL STRUCTURE OF BOVINE THROMBIN COMPLEXES FORMED WITH THE BENZAMIDINE AND ARGININE-BASED THROMBIN INHIBITORS NAPAP, 4-TAPAP AND MQPA: A STARTING POINT FOR IMPROVING ANTITHROMBOTICS | 3.4.21.5 |
| 1EU5 | STRUCTURE OF E. COLI DUTPASE AT 1.45 A | 3.6.1.23 |
| 1EUB | SOLUTION STRUCTURE OF THE CATALYTIC DOMAIN OF HUMAN COLLAGENASE-3 (MMP-13) COMPLEXED TO A POTENT NON-PEPTIDIC SULFONAMIDE INHIBITOR | 3.4.24 |
| 1EUF | BOVINE DUODENASE(NEW SERINE PROTEASE), CRYSTAL STRUCTURE | 3.4.21 |
| 1EUG | CRYSTAL STRUCTURE OF ESCHERICHIA COLI URACIL DNA GLYCOSYLASE AND ITS COMPLEXES WITH URACIL AND GLYCEROL: STRUCTURE AND GLYCOSYLASE MECHANISM REVISITED | 3.2.2.3 3.2.2.27 |
| 1EUI | ESCHERICHIA COLI URACIL-DNA GLYCOSYLASE COMPLEX WITH URACIL-DNA GLYCOSYLASE INHIBITOR PROTEIN | 3.2.2 3.2.2.27 |
| 1EUR | SIALIDASE | 3.2.1.18 |
| 1EUS | SIALIDASE COMPLEXED WITH 2-DEOXY-2,3-DEHYDRO-N-ACETYLNEURAMINIC ACID | 3.2.1.18 |
| 1EUT | SIALIDASE, LARGE 68KD FORM, COMPLEXED WITH GALACTOSE | 3.2.1.18 |
| 1EUU | SIALIDASE OR NEURAMINIDASE, LARGE 68KD FORM | 3.2.1.18 |
| 1EUV | X-RAY STRUCTURE OF THE C-TERMINAL ULP1 PROTEASE DOMAIN IN COMPLEX WITH SMT3, THE YEAST ORTHOLOG OF SUMO. | 3.4.22.68 |
| 1EUW | ATOMIC RESOLUTION STRUCTURE OF E. COLI DUTPASE | 3.6.1.23 |
| 1EV1 | ECHOVIRUS 1 | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1EV7 | CRYSTAL STRUCTURE OF DNA RESTRICTION ENDONUCLEASE NAEI | 3.1.21.4 |
| 1EVE | THREE DIMENSIONAL STRUCTURE OF THE ANTI-ALZHEIMER DRUG, E2020 (ARICEPT), COMPLEXED WITH ITS TARGET ACETYLCHOLINESTERASE | 3.1.1.7 |
| 1EVQ | THE CRYSTAL STRUCTURE OF THE THERMOPHILIC CARBOXYLESTERASE EST2 FROM ALICYCLOBACILLUS ACIDOCALDARIUS | 3.1.1.1 |
| 1EVW | L116A MUTANT OF THE HOMING ENDONUCLEASE I-PPOI COMPLEXED TO HOMING SITE DNA. | 3.1 |
| 1EVX | APO CRYSTAL STRUCTURE OF THE HOMING ENDONUCLEASE, I-PPOI | 3.1 |
| 1EW2 | CRYSTAL STRUCTURE OF A HUMAN PHOSPHATASE | 3.1.3.1 |
| 1EW8 | ALKALINE PHOSPHATASE (E.C. 3.1.3.1) COMPLEX WITH PHOSPHONOACETIC ACID | 3.1.3.1 |
| 1EW9 | ALKALINE PHOSPHATASE (E.C. 3.1.3.1) COMPLEX WITH MERCAPTOMETHYL PHOSPHONATE | 3.1.3.1 |
| 1EWL | CRYSTAL STRUCTURE OF CRUZAIN BOUND TO WRR-99 | 3.4.22 3.4.22.51 |
| 1EWM | THE CYSTEINE PROTEASE CRUZAIN BOUND TO WRR-112 | 3.4.22 3.4.22.51 |
| 1EWN | CRYSTAL STRUCTURE OF THE HUMAN AAG DNA REPAIR GLYCOSYLASE COMPLEXED WITH 1,N6-ETHENOADENINE-DNA | 3.2.2.21 |
| 1EWO | THE CYSTEINE PROTEASE CRUZAIN BOUND TO WRR-204 | 3.4.22 3.4.22.51 |
| 1EWP | CRUZAIN BOUND TO MOR-LEU-HPQ | 3.4.22 3.4.22.51 |
| 1EWZ | CRYSTAL STRUCTURE OF THE OXA-10 BETA-LACTAMASE FROM PSEUDOMONAS AERUGINOSA | 3.5.2.6 |
| 1EX1 | BETA-D-GLUCAN EXOHYDROLASE FROM BARLEY | 3.2.1.58 |
| 1EX2 | CRYSTAL STRUCTURE OF BACILLUS SUBTILIS MAF PROTEIN | 3.6.1.9 |
| 1EX3 | CRYSTAL STRUCTURE OF BOVINE CHYMOTRYPSINOGEN A (TETRAGONAL) | 3.4.21.1 |
| 1EX4 | HIV-1 INTEGRASE CATALYTIC CORE AND C-TERMINAL DOMAIN | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1EX9 | CRYSTAL STRUCTURE OF THE PSEUDOMONAS AERUGINOSA LIPASE COMPLEXED WITH RC-(RP,SP)-1,2-DIOCTYLCARBAMOYL-GLYCERO-3-O-OCTYLPHOSPHONATE | 3.1.1.3 |
| 1EXC | CRYSTAL STRUCTURE OF B. SUBTILIS MAF PROTEIN COMPLEXED WITH D-(UTP) | 3.6.1.9 |
| 1EXF | EXFOLIATIVE TOXIN A | 3.4.21 |
| 1EXG | SOLUTION STRUCTURE OF A CELLULOSE BINDING DOMAIN FROM CELLULOMONAS FIMI BY NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY | 3.2.1.91 3.2.1.8 |
| 1EXH | SOLUTION STRUCTURE OF A CELLULOSE BINDING DOMAIN FROM CELLULOMONAS FIMI BY NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY | 3.2.1.91 3.2.1.8 |
| 1EXN | T5 5'-EXONUCLEASE | 3.1.11.3 3.1.11 |
| 1EXP | BETA-1,4-GLYCANASE CEX-CD | 3.2.1.91 3.2.1.8 |
| 1EXQ | CRYSTAL STRUCTURE OF THE HIV-1 INTEGRASE CATALYTIC CORE DOMAIN | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1EXW | CRYSTAL STRUCTURE OF PALMITOYL PROTEIN THIOESTERASE 1 COMPLEXED WITH HEXADECYLSULFONYL FLUORIDE | 3.1.2.22 |
| 1EY0 | STRUCTURE OF WILD-TYPE S. NUCLEASE AT 1.6 A RESOLUTION | 3.1.31.1 |
| 1EY4 | STRUCTURE OF S. NUCLEASE STABILIZING MUTANT S59A | 3.1.31.1 |
| 1EY5 | STRUCTURE OF S. NUCLEASE STABILIZING MUTANT T33V | 3.1.31.1 |
| 1EY6 | STRUCTURE OF S. NUCLEASE STABILIZING MUTANT T41I | 3.1.31.1 |
| 1EY7 | STRUCTURE OF S. NUCLEASE STABILIZING MUTANT S128A | 3.1.31.1 |
| 1EY8 | STRUCTURE OF S. NUCLEASE STABILIZING TRIPLE MUTANT P117G/H124L/S128A | 3.1.31.1 |
| 1EY9 | STRUCTURE OF S. NUCLEASE STABILIZING QUADRUPLE MUTANT T41I/P117G/H124L/S128A | 3.1.31.1 |
| 1EYA | STRUCTURE OF S. NUCLEASE STABILIZING QUINTUPLE MUTANT T33V/T41I/P117G/H124L/S128A | 3.1.31.1 |
| 1EYC | STRUCTURE OF S. NUCLEASE STABILIZING QUINTUPLE MUTANT T41I/S59A/P117G/H124L/S128A | 3.1.31.1 |
| 1EYD | STRUCTURE OF WILD-TYPE S. NUCLEASE AT 1.7 A RESOLUTION | 3.1.31.1 |
| 1EYI | FRUCTOSE-1,6-BISPHOSPHATASE COMPLEX WITH MAGNESIUM, FRUCTOSE-6-PHOSPHATE AND PHOSPHATE (R-STATE) | 3.1.3.11 |
| 1EYJ | FRUCTOSE-1,6-BISPHOSPHATASE COMPLEX WITH AMP, MAGNESIUM, FRUCTOSE-6-PHOSPHATE AND PHOSPHATE (T-STATE) | 3.1.3.11 |
| 1EYK | FRUCTOSE-1,6-BISPHOSPHATASE COMPLEX WITH AMP, ZINC, FRUCTOSE-6-PHOSPHATE AND PHOSPHATE (T-STATE) | 3.1.3.11 |
| 1EYU | HIGH RESOLUTION STRUCTURE OF THE PVUII ENDONCULEASE/COGNATE DNA COMPLEX AT PH 4.6 | 3.1.21.4 |
| 1EYW | THREE-DIMENSIONAL STRUCTURE OF THE ZINC-CONTAINING PHOSPHOTRIESTERASE WITH BOUND SUBSTRATE ANALOG TRIETHYLPHOSPHATE | 3.1.8.1 |
| 1EZ2 | THREE-DIMENSIONAL STRUCTURE OF THE ZINC-CONTAINING PHOSPHOTRIESTERASE WITH BOUND SUBSTRATE ANALOG DIISOPROPYLMETHYL PHOSPHONATE. | 3.1.8.1 |
| 1EZ6 | STRUCTURE OF S. NUCLEASE STABILIZING SEXTUPLE MUTANT T33V/T41I/S59A/P117G/H124L/S128A | 3.1.31.1 |
| 1EZ8 | STRUCTURE OF S. NUCLEASE STABILIZING MUTANT T33V | 3.1.31.1 |
| 1EZM | THREE-DIMENSIONAL STRUCTURE OF THE ELASTASE OF PSEUDOMONAS AERUGINOSA AT 1.5 ANGSTROMS RESOLUTION | 3.4.24.26 |
| 1EZQ | CRYSTAL STRUCTURE OF HUMAN COAGULATION FACTOR XA COMPLEXED WITH RPR128515 | 3.4.21.6 |
| 1EZR | CRYSTAL STRUCTURE OF NUCLEOSIDE HYDROLASE FROM LEISHMANIA MAJOR | 3.2.2.1 3.2.2.2 3.2.2.3 |
| 1F08 | CRYSTAL STRUCTURE OF THE DNA-BINDING DOMAIN OF THE REPLICATION INITIATION PROTEIN E1 FROM PAPILLOMAVIRUS | 3.6.4.12 |
| 1F0I | THE FIRST CRYSTAL STRUCTURE OF A PHOSPHOLIPASE D | 3.1.4.4 |
| 1F0J | CATALYTIC DOMAIN OF HUMAN PHOSPHODIESTERASE 4B2B | 3.1.4.17 3.1.4.53 |
| 1F0O | PVUII ENDONUCLEASE/COGNATE DNA COMPLEX (GLUTARALDEHYDE-CROSSLINKED CRYSTAL) AT PH 7.5 WITH TWO CALCIUM IONS AT EACH ACTIVE SITE | 3.1.21.4 |
| 1F0R | CRYSTAL STRUCTURE OF HUMAN COAGULATION FACTOR XA COMPLEXED WITH RPR208815 | 3.4.21.6 |
| 1F0S | CRYSTAL STRUCTURE OF HUMAN COAGULATION FACTOR XA COMPLEXED WITH RPR208707 | 3.4.21.6 |
| 1F0T | BOVINE TRYPSIN COMPLEXED WITH RPR131247 | 3.4.21.4 |
| 1F0U | BOVINE TRYPSIN COMPLEXED WITH RPR128515 | 3.4.21.4 |
| 1F0V | CRYSTAL STRUCTURE OF AN RNASE A DIMER DISPLAYING A NEW TYPE OF 3D DOMAIN SWAPPING | 3.1.27.5 4.6.1.18 |
| 1F0W | CRYSTAL STRUCTURE OF ORTHORHOMBIC LYSOZYME GROWN AT PH 6.5 | 3.2.1.17 |
| 1F10 | CRYSTAL STRUCTURE OF ORTHORHOMBIC LYSOZYME GROWN AT PH 6.5 AT 88% RELATIVE HUMIDITY | 3.2.1.17 |
| 1F1J | CRYSTAL STRUCTURE OF CASPASE-7 IN COMPLEX WITH ACETYL-ASP-GLU-VAL-ASP-CHO | 3.4.22 3.4.22.60 |
| 1F21 | DIVALENT METAL COFACTOR BINDING IN THE KINETIC FOLDING TRAJECTORY OF E. COLI RIBONUCLEASE HI | 3.1.26.4 |
| 1F29 | CRYSTAL STRUCTURE ANALYSIS OF CRUZAIN BOUND TO A VINYL SULFONE DERIVED INHIBITOR (I) | 3.4.22 3.4.22.51 |
| 1F2A | CRYSTAL STRUCTURE ANALYSIS OF CRUZAIN BOUND TO A VINYL SULFONE DERIVED INHIBITOR (II) | 3.4.22 3.4.22.51 |
| 1F2B | CRYSTAL STRUCTURE ANALYSIS OF CRUZAIN BOUND TO VINYL SULFONE DERIVED INHIBITOR (III) | 3.4.22 3.4.22.51 |
| 1F2C | CRYSTAL STRUCTURE ANALYSIS OF CRYZAIN BOUND TO VINYL SULFONE DERIVED INHIBITOR (IV) | 3.4.22 3.4.22.51 |
| 1F2D | 1-AMINOCYCLOPROPANE-1-CARBOXYLATE DEAMINASE | 4.1.99.4 3.5.99.7 |
| 1F2M | SIMPLIFICATION OF A PROTEIN LOOP IN STAPHYLOCOCCAL NUCLEASE | 3.1.31.1 |
| 1F2O | CRYSTAL STRUCTURE OF THE STREPTOMYCES GRISEUS AMINOPEPTIDASE COMPLEXED WITH L-LEUCINE | 3.4.11 3.4.11.24 |
| 1F2P | CRYSTAL STRUCTURE OF THE STREPTOMYCES GRISEUS AMINOPEPTIDASE COMPLEXED WITH L-PHENYLALANINE | 3.4.11 3.4.11.24 |
| 1F2R | NMR STRUCTURE OF THE HETERODIMERIC COMPLEX BETWEEN CAD DOMAINS OF CAD AND ICAD | 3 |
| 1F2S | CRYSTAL STRUCTURE OF THE COMPLEX FORMED BETWEEN BOVINE BETA-TRYPSIN AND MCTI-A, A TRYPSIN INHIBITOR OF SQUASH FAMILY AT 1.8 A RESOLUTION | 3.4.21.4 |
| 1F2Y | SIMPLIFICATION OF A PROTEIN LOOP IN STAPHYLOCOCCAL NUCLEASE | 3.1.31.1 |
| 1F2Z | SIMPLIFICATION OF A PROTEIN LOOP IN STAPHYLOCOCCAL NUCLEASE | 3.1.31.1 |
| 1F31 | CRYSTAL STRUCTURE OF CLOSTRIDIUM BOTULINUM NEUROTOXIN B COMPLEXED WITH A TRISACCHARIDE | 3.4.24.69 |
| 1F34 | CRYSTAL STRUCTURE OF ASCARIS PEPSIN INHIBITOR-3 BOUND TO PORCINE PEPSIN | 3.4.23.1 |
| 1F3U | CRYSTAL STRUCTURE OF THE RAP30/74 INTERACTION DOMAINS OF HUMAN TFIIF | 3.6.4.12 |
| 1F3Y | SOLUTION STRUCTURE OF THE NUDIX ENZYME DIADENOSINE TETRAPHOSPHATE HYDROLASE FROM LUPINUS ANGUSTIFOLIUS L. | 3.6.1.17 |
| 1F48 | CRYSTAL STRUCTURE OF THE ESCHERICHIA COLI ARSENITE-TRANSLOCATING ATPASE | 3.6.1 7.3.2.7 |
| 1F4A | E. COLI (LACZ) BETA-GALACTOSIDASE (NCS CONSTRAINED MONOMER-ORTHORHOMBIC) | 3.2.1.23 |
| 1F4R | CRYSTAL STRUCTURE OF THE HUMAN AAG DNA REPAIR GLYCOSYLASE COMPLEXED WITH 1,N6-ETHENOADENINE-DNA | 3.2.2.20 3.2.2.21 |
| 1F57 | CARBOXYPEPTIDASE A COMPLEX WITH D-CYSTEINE AT 1.75 A | 3.4.17.1 |
| 1F5J | CRYSTAL STRUCTURE OF XYNB, A HIGHLY THERMOSTABLE BETA-1,4-XYLANASE FROM DICTYOGLOMUS THERMOPHILUM RT46B.1, AT 1.8 A RESOLUTION | 3.2.1.8 |
| 1F5K | UROKINASE PLASMINOGEN ACTIVATOR B-CHAIN-BENZAMIDINE COMPLEX | 3.4.21.73 |
| 1F5L | UROKINASE PLASMINOGEN ACTIVATOR B-CHAIN-AMILORIDE COMPLEX | 3.4.21.73 |
| 1F5N | HUMAN GUANYLATE BINDING PROTEIN-1 IN COMPLEX WITH THE GTP ANALOGUE, GMPPNP. | 3.6.5 |
| 1F5S | CRYSTAL STRUCTURE OF PHOSPHOSERINE PHOSPHATASE FROM METHANOCOCCUS JANNASCHII | 3.1.3.3 |
| 1F6O | CRYSTAL STRUCTURE OF THE HUMAN AAG DNA REPAIR GLYCOSYLASE COMPLEXED WITH DNA | 3.2.2.20 3.2.2.21 |
| 1F6U | NMR STRUCTURE OF THE HIV-1 NUCLEOCAPSID PROTEIN BOUND TO STEM-LOOP SL2 OF THE PSI-RNA PACKAGING SIGNAL. IMPLICATIONS FOR GENOME RECOGNITION | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1F6V | SOLUTION STRUCTURE OF THE C TERMINAL OF MU B TRANSPOSITION PROTEIN | 3.6.1 |
| 1F6W | STRUCTURE OF THE CATALYTIC DOMAIN OF HUMAN BILE SALT ACTIVATED LIPASE | 3.1.1.3 3.1.1.13 3.1.1.6 |
| 1F7A | HOW DOES A SYMMETRIC DIMER RECOGNIZE AN ASYMMETRIC SUBSTRATE? A SUBSTRATE COMPLEX OF HIV-1 PROTEASE. | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1F7D | CRYSTAL STRUCTURES OF FELINE IMMUNODEFICIENCY VIRUS DUTP PYROPHOSPHATASE AND ITS NUCLEOTIDE COMPLEXES IN THREE CRYSTAL FORMS | 3.6.1.23 3.4.23 2.7.7.49 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1F7E | THE FIRST EGF-LIKE DOMAIN FROM HUMAN BLOOD COAGULATION FVII, NMR, 20 STRUCTURES | 3.4.21.21 |
| 1F7K | CRYSTAL STRUCTURES OF FELINE IMMUNODEFICIENCY VIRUS DUTP PYROPHOSPHATASE AND ITS NUCLEOTIDE COMPLEXES IN THREE CRYSTAL FORMS. | 3.6.1.23 3.4.23 2.7.7.49 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1F7M | THE FIRST EGF-LIKE DOMAIN FROM HUMAN BLOOD COAGULATION FVII, NMR, MINIMIZED AVERAGE STRUCTURE | 3.4.21.21 |
| 1F7N | CRYSTAL STRUCTURES OF FELINE IMMUNODEFICIENCY VIRUS DUTP PYROPHOSPHATASE AND ITS NUCLEOTIDE COMPLEXES IN THREE CRYSTAL FORMS. | 3.6.1.23 3.4.23 2.7.7.49 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1F7O | CRYSTAL STRUCTURES OF FELINE IMMUNODEFICIENCY VIRUS DUTP PYROPHOSPHATASE AND ITS NUCLEOTIDE COMPLEXES IN THREE CRYSTAL FORMS. | 3.6.1.23 3.4.23 2.7.7.49 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1F7P | CRYSTAL STRUCTURES OF FELINE IMMUNODEFICIENCY VIRUS DUTP PYROPHOSPHATASE AND ITS NUCLEOTIDE COMPLEXES IN THREE CRYSTAL FORMS. | 3.6.1.23 3.4.23 2.7.7.49 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1F7Q | CRYSTAL STRUCTURES OF FELINE IMMUNODEFICIENCY VIRUS DUTP PYROPHOSPHATASE AND ITS NUCLEOTIDE COMPLEXES IN THREE CRYSTAL FORMS. | 3.6.1.23 3.4.23 2.7.7.49 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1F7R | CRYSTAL STRUCTURES OF FELINE IMMUNODEFICIENCY VIRUS DUTP PYROPHOSPHATASE AND ITS NUCLEOTIDE COMPLEXES IN THREE CRYSTAL FORMS. | 3.6.1.23 3.4.23 2.7.7.49 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1F82 | BOTULINUM NEUROTOXIN TYPE B CATALYTIC DOMAIN | 3.4.24.69 |
| 1F89 | CRYSTAL STRUCTURE OF SACCHAROMYCES CEREVISIAE NIT3, A MEMBER OF BRANCH 10 OF THE NITRILASE SUPERFAMILY | 3.5.1.3 |
| 1F8B | NATIVE INFLUENZA VIRUS NEURAMINIDASE IN COMPLEX WITH NEU5AC2EN | 3.2.1.18 |
| 1F8C | NATIVE INFLUENZA NEURAMINIDASE IN COMPLEX WITH 4-AMINO-2-DEOXY-2,3-DEHYDRO-N-NEURAMINIC ACID | 3.2.1.18 |
| 1F8D | NATIVE INFLUENZA NEURAMINIDASE IN COMPLEX WITH 9-AMINO-2-DEOXY-2,3-DEHYDRO-N-NEURAMINIC ACID | 3.2.1.18 |
| 1F8E | NATIVE INFLUENZA NEURAMINIDASE IN COMPLEX WITH 4,9-DIAMINO-2-DEOXY-2,3-DEHYDRO-N-ACETYL-NEURAMINIC ACID | 3.2.1.18 |
| 1F8Q | CRYSTAL STRUCTURE OF ALPHA-MOMORCHARIN IN ACETONITRILE-WATER MIXTURE | 3.2.2.22 |
| 1F8V | THE STRUCTURE OF PARIACOTO VIRUS REVEALS A DODECAHEDRAL CAGE OF DUPLEX RNA | 3.4.23.44 |
| 1F92 | UROKINASE PLASMINOGEN ACTIVATOR B CHAIN-UKI-1D COMPLEX | 3.4.21.73 |
| 1F9B | MELANIN PROTEIN INTERACTION: X-RAY STRUCTURE OF THE COMPLEX OF MARE LACTOFERRIN WITH MELANIN MONOMERS | 3.4.21 |
| 1F9D | CRYSTAL STRUCTURE OF THE CELLULASE CEL48F FROM C. CELLULOLYTICUM IN COMPLEX WITH CELLOTETRAOSE | 3.2.1.4 |
| 1F9E | CASPASE-8 SPECIFICITY PROBED AT SUBSITE S4: CRYSTAL STRUCTURE OF THE CASPASE-8-Z-DEVD-CHO | 3.4.22 3.4.22.61 |
| 1F9O | CRYSTAL STRUCTURE OF THE CELLULASE CEL48F FROM C. CELLULOLYTICUM WITH THE THIOOLIGOSACCHARIDE INHIBITOR PIPS-IG3 | 3.2.1.4 |
| 1FA2 | CRYSTAL STRUCTURE OF BETA-AMYLASE FROM SWEET POTATO | 3.2.1.2 |
| 1FAE | CRYSTAL STRUCTURE OF THE CELLULASE CEL48F FROM C. CELLULOLYTICUM IN COMPLEX WITH CELLOBIOSE | 3.2.1.4 |
| 1FAF | NMR STRUCTURE OF THE N-TERMINAL J DOMAIN OF MURINE POLYOMAVIRUS T ANTIGENS. | 3.6.4 |
| 1FAJ | INORGANIC PYROPHOSPHATASE | 3.6.1.1 |
| 1FAK | HUMAN TISSUE FACTOR COMPLEXED WITH COAGULATION FACTOR VIIA INHIBITED WITH A BPTI-MUTANT | 3.4.21.21 |
| 1FAX | COAGULATION FACTOR XA INHIBITOR COMPLEX | 3.4.21.6 |
| 1FAZ | THE CRYSTAL STRUCTURE OF PROKARYOTIC PHOSPHOLIPASE A2 | 3.1.1.4 |
| 1FB1 | CRYSTAL STRUCTURE OF HUMAN GTP CYCLOHYDROLASE I | 3.5.4.16 |
| 1FB2 | STRUCTURE OF PHOSPHOLIPASE A2 FROM DABOIA RUSSELLI PULCHELLA AT 1.95 | 3.1.1.4 |
| 1FB7 | CRYSTAL STRUCTURE OF AN IN VIVO HIV-1 PROTEASE MUTANT IN COMPLEX WITH SAQUINAVIR: INSIGHTS INTO THE MECHANISMS OF DRUG RESISTANCE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1FBC | CRYSTALLOGRAPHIC STUDIES OF THE CATALYTIC MECHANISM OF THE NEUTRAL FORM OF FRUCTOSE-1,6-BISPHOSPHATASE | 3.1.3.11 |
| 1FBD | CRYSTALLOGRAPHIC STUDIES OF THE CATALYTIC MECHANISM OF THE NEUTRAL FORM OF FRUCTOSE-1,6-BISPHOSPHATASE | 3.1.3.11 |
| 1FBE | CRYSTALLOGRAPHIC STUDIES OF THE CATALYTIC MECHANISM OF THE NEUTRAL FORM OF FRUCTOSE-1,6-BISPHOSPHATASE | 3.1.3.11 |
| 1FBF | CRYSTALLOGRAPHIC STUDIES OF THE CATALYTIC MECHANISM OF THE NEUTRAL FORM OF FRUCTOSE-1,6-BISPHOSPHATASE | 3.1.3.11 |
| 1FBG | CRYSTALLOGRAPHIC STUDIES OF THE CATALYTIC MECHANISM OF THE NEUTRAL FORM OF FRUCTOSE-1,6-BISPHOSPHATASE | 3.1.3.11 |
| 1FBH | CRYSTALLOGRAPHIC STUDIES OF THE CATALYTIC MECHANISM OF THE NEUTRAL FORM OF FRUCTOSE-1,6-BISPHOSPHATASE | 3.1.3.11 |
| 1FBL | STRUCTURE OF FULL-LENGTH PORCINE SYNOVIAL COLLAGENASE (MMP1) REVEALS A C-TERMINAL DOMAIN CONTAINING A CALCIUM-LINKED, FOUR-BLADED BETA-PROPELLER | 3.4.24.7 |
| 1FBO | CRYSTAL STRUCTURE OF THE CELLULASE CEL48F FROM C. CELLULOLYTICUM IN COMPLEX WITH CELLOBIITOL | 3.2.1.4 |
| 1FBP | CRYSTAL STRUCTURE OF FRUCTOSE-1,6-BISPHOSPHATASE COMPLEXED WITH FRUCTOSE 6-PHOSPHATE, AMP, AND MAGNESIUM | 3.1.3.11 |
| 1FBT | THE BISPHOSPHATASE DOMAIN OF THE BIFUNCTIONAL RAT LIVER 6-PHOSPHOFRUCTO-2-KINASE/FRUCTOSE-2,6-BISPHOSPHATASE | 3.1.3.46 2.7.1.105 |
| 1FBW | CRYSTAL STRUCTURE OF THE CELLULASE CEL48F FROM C. CELLULOLYTICUM IN COMPLEX WITH CELLOHEXAOSE | 3.2.1.4 |
| 1FC6 | PHOTOSYSTEM II D1 C-TERMINAL PROCESSING PROTEASE | 3.4.21.102 |
| 1FC7 | PHOTOSYSTEM II D1 C-TERMINAL PROCESSING PROTEASE | 3.4.21.102 |
| 1FC9 | PHOTOSYSTEM II D1 C-TERMINAL PROCESSING PROTEASE | 3.4.21.102 |
| 1FCE | PROCESSIVE ENDOCELLULASE CELF OF CLOSTRIDIUM CELLULOLYTICUM | 3.2.1.4 |
| 1FCF | PHOTOSYSTEM II D1 C-TERMINAL PROCESSING PROTEASE | 3.4.21.102 |
| 1FCK | STRUCTURE OF DICERIC HUMAN LACTOFERRIN | 3.4.21 |
| 1FCM | CRYSTAL STRUCTURE OF THE E.COLI AMPC BETA-LACTAMASE MUTANT Q120L/Y150E COVALENTLY ACYLATED WITH THE INHIBITORY BETA-LACTAM, CLOXACILLIN | 3.5.2.6 |
| 1FCN | CRYSTAL STRUCTURE OF THE E. COLI AMPC BETA-LACTAMASE MUTANT Q120L/Y150E COVALENTLY ACYLATED WITH THE SUBSTRATE BETA-LACTAM LORACARBEF | 3.5.2.6 |
| 1FCO | CRYSTAL STRUCTURE OF THE E. COLI AMPC BETA-LACTAMASE COVALENTLY ACYLATED WITH THE INHIBITORY BETA-LACTAM, MOXALACTAM | 3.5.2.6 |
| 1FCQ | CRYSTAL STRUCTURE (MONOCLINIC) OF BEE VENOM HYALURONIDASE | 3.2.1.35 |
| 1FCU | CRYSTAL STRUCTURE (TRIGONAL) OF BEE VENOM HYALURONIDASE | 3.2.1.35 |
| 1FCV | CRYSTAL STRUCTURE OF BEE VENOM HYALURONIDASE IN COMPLEX WITH HYALURONIC ACID TETRAMER | 3.2.1.35 |
| 1FDK | CARBOXYLIC ESTER HYDROLASE (PLA2-MJ33 INHIBITOR COMPLEX) | 3.1.1.4 |
| 1FDP | PROENZYME OF HUMAN COMPLEMENT FACTOR D, RECOMBINANT PROFACTOR D | 3.4.21.46 |
| 1FE5 | SEQUENCE AND CRYSTAL STRUCTURE OF A BASIC PHOSPHOLIPASE A2 FROM COMMON KRAIT (BUNGARUS CAERULEUS) AT 2.4 RESOLUTION: IDENTIFICATION AND CHARACTERIZATION OF ITS PHARMACOLOGICAL SITES. | 3.1.1.4 |
| 1FEJ | STRUCTURAL IMPLICATIONS OF DRUG RESISTANT MUTANTS OF HIV-1 PROTEASE: HIGH RESOLUTION CRYSTAL STRUCTURES OF THE MUTANT PROTEASE/SUBSTRATE ANALOG COMPLEXES | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1FEZ | THE CRYSTAL STRUCTURE OF BACILLUS CEREUS PHOSPHONOACETALDEHYDE HYDROLASE COMPLEXED WITH TUNGSTATE, A PRODUCT ANALOG | 3.11.1.1 |
| 1FF0 | STRUCTURAL IMPLICATIONS OF DRUG RESISTANT MUTANTS OF HIV-1 PROTEASE: HIGH RESOLUTION CRYSTAL STRUCTURES OF THE MUTANT PROTEASE/SUBSTRATE ANALOG COMPLEXES. | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1FF7 | THE FIRST EGF-LIKE DOMAIN FROM HUMAN BLOOD COAGULATION FVII (FUCOSYLATED AT SER-60), NMR, 20 STRUCTURES | 3.4.21.21 |
| 1FFA | CONTRIBUTION OF CUTINASE SERINE 42 SIDE CHAIN TO THE STABILIZATION OF THE OXYANION TRANSITION STATE | 3.1.1.3 3.1.1.74 |
| 1FFB | CONTRIBUTION OF CUTINASE SERINE 42 SIDE CHAIN TO THE STABILIZATION OF THE OXYANION TRANSITION STATE | 3.1.1.3 3.1.1.74 |
| 1FFC | CONTRIBUTION OF CUTINASE SERINE 42 SIDE CHAIN TO THE STABILIZATION OF THE OXYANION TRANSITION STATE | 3.1.1.3 3.1.1.74 |
| 1FFD | CONTRIBUTION OF CUTINASE SERINE 42 SIDE CHAIN TO THE STABILIZATION OF THE OXYANION TRANSITION STATE | 3.1.1.3 3.1.1.74 |
| 1FFE | CONTRIBUTION OF CUTINASE SERINE 42 SIDE CHAIN TO THE STABILIZATION OF THE OXYANION TRANSITION STATE | 3.1.1.3 3.1.1.74 |
| 1FFF | STRUCTURAL IMPLICATIONS OF DRUG RESISTANT MUTANTS OF HIV-1 PROTEASE : HIGH RESOLUTION CRYSTAL STRUCTURES OF THE MUTANT PROTEASE/SUBSTRATE ANALOG COMPLEXES. | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1FFI | STRUCTURAL IMPLICATIONS OF DRUG RESISTANT MUTANTS OF HIV-1 PROTEASE: HIGH RESOLUTION CRYSTAL STRUCTURES OF THE MUTANT PROTEASE/SUBSTRATE ANALOG COMPLEXES | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1FFM | THE FIRST EGF-LIKE DOMAIN FROM HUMAN BLOOD COAGULATION FVII (FUCOSYLATED AT SER-60), NMR, MINIMIZED AVERAGE STRUCTURE | 3.4.21.21 |
| 1FFQ | CRYSTAL STRUCTURE OF CHITINASE A COMPLEXED WITH ALLOSAMIDIN | 3.2.1.14 |
| 1FFR | CRYSTAL STRUCTURE OF CHITINASE A MUTANT Y390F COMPLEXED WITH HEXA-N-ACETYLCHITOHEXAOSE (NAG)6 | 3.2.1.14 |
| 1FG6 | STRUCTURAL IMPLICATIONS OF DRUG RESISTANT MUTANTS OF HIV-1 PROTEASE: HIGH RESOLUTION CRYSTAL STRUCTURES OF THE MUTANT PROTEASE/SUBSTRATE ANALOG COMPLEXES | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1FG8 | STRUCTURAL IMPLICATIONS OF DRUG RESISTANT MUTANTS OF HIV-1 PROTEASE: HIGH RESOLUTION CRYSTAL STRUCTURES OF THE MUTANT PROTEASE/SUBSTRATE ANALOG COMPLEXES | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1FGC | STRUCTURAL IMPLICATIONS OF DRUG RESISTANT MUTANTS OF HIV-1 PROTEASE: HIGH RESOLUTION CRYSTAL STRUCTURES OF THE MUTANT PROTEASE/SUBSTRATE ANALOG COMPLEXES | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1FH0 | CRYSTAL STRUCTURE OF HUMAN CATHEPSIN V COMPLEXED WITH AN IRREVERSIBLE VINYL SULFONE INHIBITOR | 3.4.22 3.4.22.43 |
| 1FH7 | CRYSTAL STRUCTURE OF THE XYLANASE CEX WITH XYLOBIOSE-DERIVED INHIBITOR DEOXYNOJIRIMYCIN | 3.2.1.91 3.2.1.8 |
| 1FH8 | CRYSTAL STRUCTURE OF THE XYLANASE CEX WITH XYLOBIOSE-DERIVED ISOFAGOMINE INHIBITOR | 3.2.1.91 3.2.1.8 |
| 1FH9 | CRYSTAL STRUCTURE OF THE XYLANASE CEX WITH XYLOBIOSE-DERIVED LACTAM OXIME INHIBITOR | 3.2.1.91 3.2.1.8 |
| 1FHD | CRYSTAL STRUCTURE OF THE XYLANASE CEX WITH XYLOBIOSE-DERIVED IMIDAZOLE INHIBITOR | 3.2.1.91 3.2.1.8 |
| 1FHI | SUBSTRATE ANALOG (IB2) COMPLEX WITH THE FRAGILE HISTIDINE TRIAD PROTEIN, FHIT | 3.6.1.29 |
| 1FHL | CRYSTAL STRUCTURE OF BETA-1,4-GALACTANASE FROM ASPERGILLUS ACULEATUS AT 293K | 3.2.1.89 |
| 1FI8 | RAT GRANZYME B [N66Q] COMPLEXED TO ECOTIN [81-84 IEPD] | 3.4.21 3.4.21.79 |
| 1FIT | FHIT (FRAGILE HISTIDINE TRIAD PROTEIN) | 3.6.1.29 |
| 1FIU | TETRAMERIC RESTRICTION ENDONUCLEASE NGOMIV IN COMPLEX WITH CLEAVED DNA | 3.1.21.4 |
| 1FIV | STRUCTURE OF AN INHIBITOR COMPLEX OF PROTEINASE FROM FELINE IMMUNODEFICIENCY VIRUS | 3.4.23.16 3.4.23 2.7.7.49 3.1.26.13 3.1.13.2 3.6.1.23 2.7.7 3.1 |
| 1FIW | THREE-DIMENSIONAL STRUCTURE OF BETA-ACROSIN FROM RAM SPERMATOZOA | 3.4.21.10 |
| 1FIZ | THREE DIMENSIONAL STRUCTURE OF BETA-ACROSIN FROM BOAR SPERMATOZOA | 3.4.21.10 |
| 1FJ2 | CRYSTAL STRUCTURE OF THE HUMAN ACYL PROTEIN THIOESTERASE 1 AT 1.5 A RESOLUTION | 3.1.4.39 3.1.2 |
| 1FJ3 | THERMOLYSIN (50% ACETONE SOAKED) | 3.4.24.27 |
| 1FJ6 | FRUCTOSE-1,6-BISPHOSPHATASE (MUTANT Y57W) PRODUCT/ZN COMPLEX (R-STATE) | 3.1.3.11 |
| 1FJ9 | FRUCTOSE-1,6-BISPHOSPHATASE (MUTANT Y57W) PRODUCTS/ZN/AMP COMPLEX (T-STATE) | 3.1.3.11 |
| 1FJM | PROTEIN SERINE/THREONINE PHOSPHATASE-1 (ALPHA ISOFORM, TYPE 1) COMPLEXED WITH MICROCYSTIN-LR TOXIN | 3.1.3.16 |
| 1FJO | THERMOLYSIN (60% ACETONE SOAKED CRYSTALS) | 3.4.24.27 |
| 1FJQ | THERMOLYSIN (70% ACETONE SOAKED CRYSTALS) | 3.4.24.27 |
| 1FJS | CRYSTAL STRUCTURE OF THE INHIBITOR ZK-807834 (CI-1031) COMPLEXED WITH FACTOR XA | 3.4.21.6 |
| 1FJT | THERMOLYSIN (50% ACETONITRILE SOAKED CRYSTALS) | 3.4.24.27 |
| 1FJU | THERMOLYSIN (80% ACETONITRILE SOAKED CRYSTALS) | 3.4.24.27 |
| 1FJV | THERMOLYSIN (60% ACETONITRILE SOAKED CRYSTALS) | 3.4.24.27 |
| 1FJW | THERMOLYSIN (50 MM PHENOL SOAKED) | 3.4.24.27 |
| 1FK9 | CRYSTAL STRUCTURE OF HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH DMP-266(EFAVIRENZ) | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1FKN | STRUCTURE OF BETA-SECRETASE COMPLEXED WITH INHIBITOR | 3.4.23.46 |
| 1FKO | CRYSTAL STRUCTURE OF NNRTI RESISTANT K103N MUTANT HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH DMP-266(EFAVIRENZ) | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1FKP | CRYSTAL STRUCTURE OF NNRTI RESISTANT K103N MUTANT HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH NEVIRAPINE | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1FKW | MURINE ADENOSINE DEAMINASE (D295E) | 3.5.4.4 |
| 1FKX | MURINE ADENOSINE DEAMINASE (D296A) | 3.5.4.4 |
| 1FLC | X-RAY STRUCTURE OF THE HAEMAGGLUTININ-ESTERASE-FUSION GLYCOPROTEIN OF INFLUENZA C VIRUS | 3.1.1.53 |
| 1FLE | CRYSTAL STRUCTURE OF ELAFIN COMPLEXED WITH PORCINE PANCREATIC ELASTASE | 3.4.21.36 |
| 1FLH | CRYSTAL STRUCTURE OF HUMAN UROPEPSIN AT 2.45 A RESOLUTION | 3.4.23.1 |
| 1FLQ | HEN EGG WHITE LYSOZYME MUTANT WITH ALANINE SUBSTITUTED FOR GLYCINE | 3.2.1.17 |
| 1FLS | SOLUTION STRUCTURE OF THE CATALYTIC FRAGMENT OF HUMAN COLLAGENASE-3 (MMP-13) COMPLEXED WITH A HYDROXAMIC ACID INHIBITOR | 3.4.24 |
| 1FLU | HEN EGG WHITE LYSOZYME MUTANT WITH ALANINE SUBSTITUTED FOR GLYCINE | 3.2.1.17 |
| 1FLW | HEN EGG WHITE LYSOZYME MUTANT WITH ALANINE SUBSTITUTED FOR GLYCINE | 3.2.1.17 |
| 1FLY | HEN EGG WHITE LYSOZYME MUTANT WITH ALANINE SUBSTITUTED FOR GLYCINE | 3.2.1.17 |
| 1FLZ | URACIL DNA GLYCOSYLASE WITH UAAP | 3.2.2.3 3.2.2.27 |
| 1FM1 | SOLUTION STRUCTURE OF THE CATALYTIC FRAGMENT OF HUMAN COLLAGENASE-3 (MMP-13) COMPLEXED WITH A HYDROXAMIC ACID INHIBITOR | 3.4.24 |
| 1FM2 | THE 2 ANGSTROM CRYSTAL STRUCTURE OF CEPHALOSPORIN ACYLASE | 3.5.1.93 |
| 1FMB | EIAV PROTEASE COMPLEXED WITH THE INHIBITOR HBY-793 | 3.4.23.16 3.4.23 2.7.7.49 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1FMG | CRYSTAL STRUCTURE OF PORCINE BETA TRYPSIN WITH 0.04% POLYDOCANOL | 3.4.21.4 |
| 1FMI | CRYSTAL STRUCTURE OF HUMAN CLASS I ALPHA1,2-MANNOSIDASE | 3.2.1.113 |
| 1FMU | STRUCTURE OF NATIVE PROTEINASE A IN P3221 SPACE GROUP. | 3.4.23.25 |
| 1FMX | STRUCTURE OF NATIVE PROTEINASE A IN THE SPACE GROUP P21 | 3.4.23.25 |
| 1FN5 | HEN EGG WHITE LYSOZYME MUTANT WITH ALANINE SUBSTITUTED FOR GLYCINE | 3.2.1.17 |
| 1FN6 | CRYSTAL STRUCTURE OF PORCINE BETA TRYPSIN WITH 0.1% POLYDOCANOL | 3.4.21.4 |
| 1FN7 | COUPLING OF DAMAGE RECOGNITION AND CATALYSIS BY A HUMAN BASE-EXCISION DNA REPAIR PROTEIN | 3.2.2 4.2.99.18 |
| 1FN8 | FUSARIUM OXYSPORUM TRYPSIN AT ATOMIC RESOLUTION | 3.4.21.4 |
| 1FNI | CRYSTAL STRUCTURE OF PORCINE BETA TRYPSIN WITH 0.01% POLYDOCANOL | 3.4.21.4 |
| 1FNO | PEPTIDASE T (TRIPEPTIDASE) | 3.4.11 3.4.11.4 |
| 1FO2 | CRYSTAL STRUCTURE OF HUMAN CLASS I ALPHA1,2-MANNOSIDASE IN COMPLEX WITH 1-DEOXYMANNOJIRIMYCIN | 3.2.1.24 3.2.1.113 |
| 1FO3 | CRYSTAL STRUCTURE OF HUMAN CLASS I ALPHA1,2-MANNOSIDASE IN COMPLEX WITH KIFUNENSINE | 3.2.1.24 3.2.1.113 |
| 1FO6 | CRYSTAL STRUCTURE ANALYSIS OF N-CARBAMOYL-D-AMINO-ACID AMIDOHYDROLASE | 3.4.22.12 3.5.1.77 |
| 1FOB | CRYSTAL STRUCTURE OF BETA-1,4-GALACTANASE FROM ASPERGILLUS ACULEATUS AT 100K | 3.2.1.89 |
| 1FOF | CRYSTAL STRUCTURE OF THE CLASS D BETA-LACTAMASE OXA-10 | 3.5.2.6 |
| 1FOK | STRUCTURE OF RESTRICTION ENDONUCLEASE FOKI BOUND TO DNA | 3.1.21.4 |
| 1FPB | CRYSTAL STRUCTURE OF THE NEUTRAL FORM OF FRUCTOSE 1,6-BISPHOSPHATASE COMPLEXED WITH REGULATORY INHIBITOR FRUCTOSE 2,6-BISPHOSPHATE AT 2.6-ANGSTROMS RESOLUTION | 3.1.3.11 |
| 1FPC | ACTIVE SITE MIMETIC INHIBITION OF THROMBIN | 3.4.21.5 |
| 1FPD | STRUCTURAL ASPECTS OF THE ALLOSTERIC INHIBITION OF FRUCTOSE-1,6-BISPHOSPHATASE BY AMP: THE BINDING OF BOTH THE SUBSTRATE ANALOGUE 2,5-ANHYDRO-D-GLUCITOL-1,6-BISPHOSPHATE AND CATALYTIC METAL IONS MONITORED BY X-RAY CRYSTALLOGRAPHY | 3.1.3.11 |
| 1FPE | STRUCTURAL ASPECTS OF THE ALLOSTERIC INHIBITION OF FRUCTOSE-1,6-BISPHOSPHATASE BY AMP: THE BINDING OF BOTH THE SUBSTRATE ANALOGUE 2,5-ANHYDRO-D-GLUCITOL-1,6-BISPHOSPHATE AND CATALYTIC METAL IONS MONITORED BY X-RAY CRYSTALLOGRAPHY | 3.1.3.11 |
| 1FPF | STRUCTURAL ASPECTS OF THE ALLOSTERIC INHIBITION OF FRUCTOSE-1,6-BISPHOSPHATASE BY AMP: THE BINDING OF BOTH THE SUBSTRATE ANALOGUE 2,5-ANHYDRO-D-GLUCITOL-1,6-BISPHOSPHATE AND CATALYTIC METAL IONS MONITORED BY X-RAY CRYSTALLOGRAPHY | 3.1.3.11 |
| 1FPG | STRUCTURAL ASPECTS OF THE ALLOSTERIC INHIBITION OF FRUCTOSE-1,6-BISPHOSPHATASE BY AMP: THE BINDING OF BOTH THE SUBSTRATE ANALOGUE 2,5-ANHYDRO-D-GLUCITOL-1,6-BISPHOSPHATE AND CATALYTIC METAL IONS MONITORED BY X-RAY CRYSTALLOGRAPHY | 3.1.3.11 |
| 1FPI | FRUCTOSE-1,6-BISPHOSPHATASE (D-FRUCTOSE-1,6-BISPHOSPHATE 1-PHOSPHOHYDROLASE) COMPLEXED WITH AMP, 2,5-ANHYDRO-D-GLUCITOL-1,6-BISPHOSPHATE AND POTASSIUM IONS (100 MM) | 3.1.3.11 |
| 1FPJ | FRUCTOSE-1,6-BISPHOSPHATASE (D-FRUCTOSE-1,6-BISPHOSPHATE 1-PHOSPHOHYDROLASE) COMPLEXED WITH AMP, 2,5-ANHYDRO-D-GLUCITOL-1,6-BISPHOSPHATE, THALLIUM (10 MM) AND LITHIUM IONS (10 MM) | 3.1.3.11 |
| 1FPK | FRUCTOSE-1,6-BISPHOSPHATASE (D-FRUCTOSE-1,6-BISPHOSPHATE 1-PHOSPHOHYDROLASE) COMPLEXED WITH THALLIUM IONS (10 MM) | 3.1.3.11 |
| 1FPL | FRUCTOSE-1,6-BISPHOSPHATASE (D-FRUCTOSE-1,6-BISPHOSPHATE 1-PHOSPHOHYDROLASE) COMPLEXED WITH AMP, 2,5-ANHYDRO-D-GLUCITOL-1,6-BISPHOSPHATE AND THALLIUM IONS (10 MM) | 3.1.3.11 |
| 1FPN | HUMAN RHINOVIRUS SEROTYPE 2 (HRV2) | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1FPR | CRYSTAL STRUCTURE OF THE COMPLEX FORMED BETWEEN THE CATALYTIC DOMAIN OF SHP-1 AND AN IN VITRO PEPTIDE SUBSTRATE PY469 DERIVED FROM SHPS-1. | 3.1.3.48 |
| 1FPZ | CRYSTAL STRUCTURE ANALYSIS OF KINASE ASSOCIATED PHOSPHATASE (KAP) WITH A SUBSTITUTION OF THE CATALYTIC SITE CYSTEINE (CYS140) TO A SERINE | 3.1.3.48 3.1.3.16 |
| 1FQ1 | CRYSTAL STRUCTURE OF KINASE ASSOCIATED PHOSPHATASE (KAP) IN COMPLEX WITH PHOSPHO-CDK2 | 3.1.3.48 3.1.3.16 |
| 1FQ3 | CRYSTAL STRUCTURE OF HUMAN GRANZYME B | 3.4.21.79 |
| 1FQ4 | CRYSTAL STRUCTURE OF A COMPLEX BETWEEN HYDROXYETHYLENE INHIBITOR CP-108,420 AND YEAST ASPARTIC PROTEINASE A | 3.4.23.25 |
| 1FQ5 | X-RAY STRUCTURE OF A CYCLIC STATINE INHIBITOR PD-129,541 BOUND TO YEAST PROTEINASE A | 3.4.23.25 |
| 1FQ6 | X-RAY STRUCTURE OF GLYCOL INHIBITOR PD-133,450 BOUND TO SACCHAROPEPSIN | 3.4.23.25 |
| 1FQ7 | X-RAY STRUCTURE OF INHIBITOR CP-72,647 BOUND TO SACCHAROPEPSIN | 3.4.23.25 |
| 1FQ8 | X-RAY STRUCTURE OF DIFLUOROSTATINE INHIBITOR CP81,198 BOUND TO SACCHAROPEPSIN | 3.4.23.25 |
| 1FQG | MOLECULAR STRUCTURE OF THE ACYL-ENZYME INTERMEDIATE IN TEM-1 BETA-LACTAMASE | 3.5.2.6 |
| 1FQO | GLUCOSAMINE 6-PHOSPHATE DEAMINASE COMPLEXED WITH THE SUBSTRATE OF THE REVERSE REACTION FRUCTOSE 6-PHOSPHATE (OPEN FORM) | 3.5.99.6 |
| 1FQX | CRYSTAL STRUCTURE OF THE COMPLEX OF HIV-1 PROTEASE WITH A PEPTIDOMIMETIC INHIBITOR | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1FR1 | REFINED CRYSTAL STRUCTURE OF BETA-LACTAMASE FROM CITROBACTER FREUNDII INDICATES A MECHANISM FOR BETA-LACTAM HYDROLYSIS | 3.5.2.6 |
| 1FR6 | REFINED CRYSTAL STRUCTURE OF BETA-LACTAMASE FROM CITROBACTER FREUNDII INDICATES A MECHANISM FOR BETA-LACTAM HYDROLYSIS | 3.5.2.6 |
| 1FRP | CRYSTAL STRUCTURE OF FRUCTOSE-1,6-BISPHOSPHATASE COMPLEXED WITH FRUCTOSE-2,6-BISPHOSPHATE, AMP AND ZN2+ AT 2.0 ANGSTROMS RESOLUTION. ASPECTS OF SYNERGISM BETWEEN INHIBITORS | 3.1.3.11 |
| 1FRZ | GLUCOSAMINE-6-PHOSPHATE DEAMINASE FROM E.COLI, R CONFORMER. COMPLEXED WITH THE ALLOSTERIC ACTIVATOR N-ACETYL-GLUCOSAMINE-6-PHOSPHATE AT 2.2 A RESOLUTION | 3.5.99.6 |
| 1FS3 | CRYSTAL STRUCTURE OF WILD-TYPE BOVINE PANCREATIC RIBONUCLEASE A | 3.1.27.5 4.6.1.18 |
| 1FS5 | A DISCOVERY OF THREE ALTERNATE CONFORMATIONS IN THE ACTIVE SITE OF GLUCOSAMINE-6-PHOSPHATE ISOMERASE | 3.5.99.6 |
| 1FS6 | GLUCOSAMINE-6-PHOSPHATE DEAMINASE FROM E.COLI, T CONFORMER, AT 2.2A RESOLUTION | 3.5.99.6 |
| 1FSA | THE T-STATE STRUCTURE OF LYS 42 TO ALA MUTANT OF THE PIG KIDNEY FRUCTOSE 1,6-BISPHOSPHATASE EXPRESSED IN E. COLI | 3.1.3.11 |
| 1FSF | GLUCOSAMINE-6-PHOSPHATE DEAMINASE FROM E.COLI, T CONFORMER, AT 1.9A RESOLUTION | 3.5.99.6 |
| 1FSI | CRYSTAL STRUCTURE OF CYCLIC NUCLEOTIDE PHOSPHODIESTERASE OF APPR>P FROM ARABIDOPSIS THALIANA | 3.1.4 |
| 1FSJ | CRYSTAL STRUCTURE OF THE E9 DNASE DOMAIN | 3.1.21.1 3.1 |
| 1FSS | ACETYLCHOLINESTERASE (E.C. 3.1.1.7) COMPLEXED WITH FASCICULIN-II | 3.1.1.7 |
| 1FSU | CRYSTAL STRUCTURE OF 4-SULFATASE (HUMAN) | 3.1.6.12 |
| 1FSW | AMPC BETA-LACTAMASE FROM E. COLI COMPLEXED WITH INHIBITOR CEPHALOTHINBORONIC ACID | 3.5.2.6 |
| 1FSY | AMPC BETA-LACTAMASE FROM E. COLI COMPLEXED WITH INHIBITOR CLOXACILLINBORONIC ACID | 3.5.2.6 |
| 1FT7 | AAP COMPLEXED WITH L-LEUCINEPHOSPHONIC ACID | 3.4.11.10 |
| 1FTA | FRUCTOSE-1,6-BISPHOSPHATASE(D-FRUCTOSE-1,6-BISPHOSPHATE, 1-PHOSPHOHYDROLASE) (E.C.3.1.3.11) COMPLEXED WITH THE ALLOSTERIC INHIBITOR AMP | 3.1.3.11 |
| 1FTN | CRYSTAL STRUCTURE OF THE HUMAN RHOA/GDP COMPLEX | 3.6.5.2 |
| 1FUJ | PR3 (MYELOBLASTIN) | 3.4.21.76 |
| 1FUK | CRYSTAL STRUCTURE OF THE CARBOXY TERMINAL DOMAIN OF YEAST EIF4A | 3.6.4.13 |
| 1FUS | CRYSTAL STRUCTURES OF RIBONUCLEASE F1 OF FUSARIUM MONILIFORME IN ITS FREE FORM AND IN COMPLEX WITH 2'GMP | 3.1.27.3 4.6.1.24 |
| 1FUT | CRYSTAL STRUCTURES OF RIBONUCLEASE F1 OF FUSARIUM MONILIFORME IN ITS FREE FORM AND IN COMPLEX WITH 2'GMP | 3.1.27.3 4.6.1.24 |
| 1FUU | YEAST INITIATION FACTOR 4A | 3.6.4.13 |
| 1FV0 | FIRST STRUCTURAL EVIDENCE OF THE INHIBITION OF PHOSPHOLIPASE A2 BY ARISTOLOCHIC ACID: CRYSTAL STRUCTURE OF A COMPLEX FORMED BETWEEN PHOSPHOLIPASE A2 AND ARISTOLOCHIC ACID | 3.1.1.4 |
| 1FV2 | THE HC FRAGMENT OF TETANUS TOXIN COMPLEXED WITH AN ANALOGUE OF ITS GANGLIOSIDE RECEPTOR GT1B | 3.4.24.68 |
| 1FV3 | THE HC FRAGMENT OF TETANUS TOXIN COMPLEXED WITH AN ANALOGUE OF ITS GANGLIOSIDE RECEPTOR GT1B | 3.4.24.68 |
| 1FV9 | CRYSTAL STRUCTURE OF HUMAN MICROUROKINASE IN COMPLEX WITH 2-AMINO-5-HYDROXY-BENZIMIDAZOLE | 3.4.21.73 |
| 1FVL | THE NUCLEAR MAGNETIC RESONANCE SOLUTION STRUCTURE OF FLAVORIDIN, AN ANTAGONIST OF THE PLATELET GP IIB-IIIA RECEPTOR | 3.4.24 |
| 1FW2 | OUTER MEMBRANE PHOSPHOLIPASE A FROM ESCHERICHIA COLI | 3.1.1.32 3.1.1.4 |
| 1FW3 | OUTER MEMBRANE PHOSPHOLIPASE A FROM ESCHERICHIA COLI | 3.1.1.32 3.1.1.4 |
| 1FW7 | NMR STRUCTURE OF 15N-LABELED BARNASE | 3.1.27 |
| 1FWA | KLEBSIELLA AEROGENES UREASE, C319A VARIANT AT PH 7.5 | 3.5.1.5 |
| 1FWB | KLEBSIELLA AEROGENES UREASE, C319A VARIANT AT PH 6.5 | 3.5.1.5 |
| 1FWC | KLEBSIELLA AEROGENES UREASE, C319A VARIANT AT PH 8.5 | 3.5.1.5 |
| 1FWD | KLEBSIELLA AEROGENES UREASE, C319A VARIANT AT PH 9.4 | 3.5.1.5 |
| 1FWE | KLEBSIELLA AEROGENES UREASE, C319A VARIANT WITH ACETOHYDROXAMIC ACID (AHA) BOUND | 3.5.1.5 |
| 1FWF | KLEBSIELLA AEROGENES UREASE, C319D VARIANT | 3.5.1.5 |
| 1FWG | KLEBSIELLA AEROGENES UREASE, C319S VARIANT | 3.5.1.5 |
| 1FWH | KLEBSIELLA AEROGENES UREASE, C319Y VARIANT | 3.5.1.5 |
| 1FWI | KLEBSIELLA AEROGENES UREASE, H134A VARIANT | 3.5.1.5 |
| 1FWJ | KLEBSIELLA AEROGENES UREASE, NATIVE | 3.5.1.5 |
| 1FWO | THE SOLUTION STRUCTURE OF A 35-RESIDUE FRAGMENT FROM THE GRANULIN/EPITHELIN-LIKE SUBDOMAIN OF RICE ORYZAIN BETA (ROB 382-416 (C398S,C399S,C407S,C413S)) | 3.4.22 |
| 1FX9 | CARBOXYLIC ESTER HYDROLASE COMPLEX (DIMERIC PLA2 + MJ33 INHIBITOR + SULPHATE IONS) | 3.1.1.4 |
| 1FXF | CARBOXYLIC ESTER HYDROLASE COMPLEX (DIMERIC PLA2 + MJ33 INHIBITOR + PHOSPHATE IONS) | 3.1.1.4 |
| 1FXH | MUTANT OF PENICILLIN ACYLASE IMPAIRED IN CATALYSIS WITH PHENYLACETIC ACID IN THE ACTIVE SITE | 3.5.1.11 |
| 1FXV | PENICILLIN ACYLASE MUTANT IMPAIRED IN CATALYSIS WITH PENICILLIN G IN THE ACTIVE SITE | 3.5.1.11 |
| 1FXW | CRYSTAL STRUCTURE OF THE RECOMBINANT ALPHA1/ALPHA2 CATALYTIC HETERODIMER OF BOVINE BRAIN PLATELET-ACTIVATING FACTOR ACETYLHYDROLASE IB. | 3.1.1.47 |
| 1FXX | THE STRUCTURE OF EXONUCLEASE I SUGGESTS HOW PROCESSIVITY IS ACHIEVED | 3.1.11.1 |
| 1FXY | COAGULATION FACTOR XA-TRYPSIN CHIMERA INHIBITED WITH D-PHE-PRO-ARG-CHLOROMETHYLKETONE | 3.4.21.4 |
| 1FY2 | ASPARTYL DIPEPTIDASE | 3.4 3.4.13.21 |
| 1FY4 | FUSARIUM OXYSPORUM TRYPSIN AT ATOMIC RESOLUTION | 3.4.21.4 |
| 1FY5 | FUSARIUM OXYSPORUM TRYPSIN AT ATOMIC RESOLUTION | 3.4.21.4 |
| 1FYE | ASPARTYL DIPEPTIDASE (ANISOTROPIC B-FACTOR REFINEMENT) | 3.4 3.4.13.21 |
| 1FYS | RIBONUCLEASE T1 V16C MUTANT | 3.1.27.3 4.6.1.24 |
| 1FYV | CRYSTAL STRUCTURE OF THE TIR DOMAIN OF HUMAN TLR1 | 3.2.2.6 |
| 1FYW | CRYSTAL STRUCTURE OF THE TIR DOMAIN OF HUMAN TLR2 | 3.2.2.6 |
| 1FYX | CRYSTAL STRUCTURE OF P681H MUTANT OF TIR DOMAIN OF HUMAN TLR2 | 3.2.2.6 |
| 1FZR | CRYSTAL STRUCTURE OF BACTERIOPHAGE T7 ENDONUCLEASE I | 3.1.21.2 |
| 1FZU | RNASE T1 V78A MUTANT | 3.1.27.3 4.6.1.24 |
| 1FZZ | THE CRYSTAL STRUCTURE OF THE COMPLEX OF NON-PEPTIDIC INHIBITOR ONO-6818 AND PORCINE PANCREATIC ELASTASE. | 3.4.21.36 |
| 1G01 | ALKALINE CELLULASE K CATALYTIC DOMAIN | 3.2.1.4 |
| 1G02 | RIBONUCLEASE T1 V16S MUTANT | 3.1.27.3 4.6.1.24 |
| 1G05 | HETEROCYCLE-BASED MMP INHIBITOR WITH P2'SUBSTITUENTS | 3.4.24.17 |
| 1G06 | CRYSTAL STRUCTURE OF T4 LYSOZYME MUTANT V149S | 3.2.1.17 |
| 1G07 | CRYSTAL STRUCTURE OF T4 LYSOZYME MUTANT V149C | 3.2.1.17 |
| 1G0C | ALKALINE CELLULASE K CATALYTIC DOMAIN-CELLOBIOSE COMPLEX | 3.2.1.4 |
| 1G0G | CRYSTAL STRUCTURE OF T4 LYSOZYME MUTANT T152A | 3.2.1.17 |
| 1G0H | CRYSTAL STRUCTURE OF MJ0109 GENE PRODUCT INOSITOL MONOPHOSPHATASE-FRUCTOSE 1,6 BISPHOSPHATASE | 3.1.3.25 3.1.3.11 |
| 1G0I | CRYSTAL STRUCTURE OF MJ0109 GENE PRODUCT INOSITOL MONOPHOSPHATASE-FRUCTOSE 1,6 BISPHOSPHATASE | 3.1.3.25 3.1.3.11 |
| 1G0J | CRYSTAL STRUCTURE OF T4 LYSOZYME MUTANT T152S | 3.2.1.17 |
| 1G0K | CRYSTAL STRUCTURE OF T4 LYSOZYME MUTANT T152C | 3.2.1.17 |
| 1G0L | CRYSTAL STRUCTURE OF T4 LYSOZYME MUTANT T152V | 3.2.1.17 |
| 1G0M | CRYSTAL STRUCTURE OF T4 LYSOZYME MUTANT T152I | 3.2.1.17 |
| 1G0P | CRYSTAL STRUCTURE OF T4 LYSOZYME MUTANT V149G | 3.2.1.17 |
| 1G0Q | CRYSTAL STRUCTURE OF T4 LYSOZYME MUTANT V149I | 3.2.1.17 |
| 1G0S | THE CRYSTAL STRUCTURE OF THE E.COLI ADP-RIBOSE PYROPHOSPHATASE | 3.6.1.13 |
| 1G0V | THE STRUCTURE OF PROTEINASE A COMPLEXED WITH A IA3 MUTANT, MVV | 3.4.23.25 |
| 1G0Z | SPECIFIC MUTATIONS IN KRAIT PLA2 LEAD TO DIMERIZATION OF PROTEIN MOLECULES: CRYSTAL STRUCTURE OF KRAIT PLA2 AT 2.1 RESOLUTION | 3.1.1.4 |
| 1G12 | ZINC PEPTIDASE FROM GRIFOLA FRONDOSA | 3.4.24.20 |
| 1G15 | CO-CRYSTAL OF E. COLI RNASE HI WITH TWO MN2+ IONS BOUND IN THE THE ACTIVE SITE | 3.1.26.4 |
| 1G18 | RECA-ADP-ALF4 COMPLEX | 3.1 |
| 1G19 | STRUCTURE OF RECA PROTEIN | 3.1 |
| 1G1F | CRYSTAL STRUCTURE OF PROTEIN TYROSINE PHOSPHATASE 1B COMPLEXED WITH A TRI-PHOSPHORYLATED PEPTIDE (RDI(PTR)ETD(PTR)(PTR)RK) FROM THE INSULIN RECEPTOR KINASE | 3.1.3.48 |
| 1G1G | CRYSTAL STRUCTURE OF PROTEIN TYROSINE PHOSPHATASE 1B COMPLEXED WITH A MONO-PHOSPHORYLATED PEPTIDE (ETDY(PTR)RKGGKGLL) FROM THE INSULIN RECEPTOR KINASE | 3.1.3.48 |
| 1G1H | CRYSTAL STRUCTURE OF PROTEIN TYROSINE PHOSPHATASE 1B COMPLEXED WITH A BIS-PHOSPHORYLATED PEPTIDE (ETD(PTR)(PTR)RKGGKGLL) FROM THE INSULIN RECEPTOR KINASE | 3.1.3.48 |
| 1G1V | T4 LYSOZYME MUTANT C54T/C97A/I58T | 3.2.1.17 |
| 1G1W | T4 LYSOZYME MUTANT C54T/C97A/Q105M | 3.2.1.17 |
| 1G1Y | CRYSTAL STRUCTURE OF ALPHA-AMYLASE II (TVAII) FROM THERMOACTINOMYCES VULGARIS R-47 AND BETA-CYCLODEXTRIN COMPLEX | 3.2.1.135 |
| 1G27 | CRYSTAL STRUCTURE OF E.COLI POLYPEPTIDE DEFORMYLASE COMPLEXED WITH THE INHIBITOR BB-3497 | 3.5.1.31 3.5.1.88 |
| 1G2A | THE CRYSTAL STRUCTURE OF E.COLI PEPTIDE DEFORMYLASE COMPLEXED WITH ACTINONIN | 3.5.1.31 3.5.1.88 |
| 1G2I | CRYSTAL STRUCTURE OF A NOVEL INTRACELLULAR PROTEASE FROM PYROCOCCUS HORIKOSHII AT 2 A RESOLUTION | 3.2 3.5.1.124 3.4.22 |
| 1G2K | HIV-1 PROTEASE WITH CYCLIC SULFAMIDE INHIBITOR, AHA047 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1G2L | FACTOR XA INHIBITOR COMPLEX | 3.4.21.6 |
| 1G2M | FACTOR XA INHIBITOR COMPLEX | 3.4.21.6 |
| 1G2X | SEQUENCE INDUCED TRIMERIZATION OF KRAIT PLA2: CRYSTAL STRUCTURE OF THE TRIMERIC FORM OF KRAIT PLA2 | 3.1.1.4 |
| 1G30 | THROMBIN INHIBITOR COMPLEX | 3.4.21.5 |
| 1G32 | THROMBIN INHIBITOR COMPLEX | 3.4.21.5 |
| 1G35 | CRYSTAL STRUCTURE OF HIV-1 PROTEASE IN COMPLEX WITH INHIBITOR, AHA024 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1G36 | TRYPSIN INHIBITOR COMPLEX | 3.4.21.4 |
| 1G37 | CRYSTAL STRUCTURE OF HUMAN ALPHA-THROMBIN COMPLEXED WITH BCH-10556 AND EXOSITE-DIRECTED PEPTIDE | 3.4.21.5 |
| 1G3B | BOVINE BETA-TRYPSIN BOUND TO META-AMIDINO SCHIFF BASE MAGNESIUM(II) CHELATE | 3.4.21.4 |
| 1G3C | BOVINE BETA-TRYPSIN BOUND TO PARA-AMIDINO SCHIFF BASE IRON(III) CHELATE | 3.4.21.4 |
| 1G3D | BOVINE BETA-TRYPSIN BOUND TO META-AMIDINO SCHIFF BASE COPPER (II) CHELATE | 3.4.21.4 |
| 1G3E | BOVINE BETA-TRYPSIN BOUND TO PARA-AMIDINO SCHIFF-BASE COPPER (II) CHELATE | 3.4.21.4 |
| 1G3K | CRYSTAL STRUCTURE OF THE H. INFLUENZAE PROTEASE HSLV AT 1.9 A RESOLUTION | 3.4.99 3.4.25.2 |
| 1G42 | STRUCTURE OF 1,3,4,6-TETRACHLORO-1,4-CYCLOHEXADIENE HYDROLASE (LINB) FROM SPHINGOMONAS PAUCIMOBILIS COMPLEXED WITH 1,2-DICHLOROPROPANE | 3.8.1 3.8.1.5 |
| 1G49 | A CARBOXYLIC ACID BASED INHIBITOR IN COMPLEX WITH MMP3 | 3.4.24.17 |
| 1G4A | CRYSTAL STRUCTURES OF THE HSLVU PEPTIDASE-ATPASE COMPLEX REVEAL AN ATP-DEPENDENT PROTEOLYSIS MECHANISM | 3.4.99 3.4.25.2 |
| 1G4H | LINB COMPLEXED WITH BUTAN-1-OL | 3.8.1 3.8.1.5 |
| 1G4I | CRYSTAL STRUCTURE OF THE BOVINE PANCREATIC PHOSPHOLIPASE A2 AT 0.97A | 3.1.1.4 |
| 1G4K | X-RAY STRUCTURE OF A NOVEL MATRIX METALLOPROTEINASE INHIBITOR COMPLEXED TO STROMELYSIN | 3.4.24.17 |
| 1G4U | CRYSTAL STRUCTURE OF THE SALMONELLA TYROSINE PHOSPHATASE AND GTPASE ACTIVATING PROTEIN SPTP BOUND TO RAC1 | 3.6.5.2 |
| 1G4W | CRYSTAL STRUCTURE OF THE SALMONELLA TYROSINE PHOSPHATASE AND GTPASE ACTIVATING PROTEIN SPTP | 3.1.3.48 |
| 1G5B | BACTERIOPHAGE LAMBDA SER/THR PROTEIN PHOSPHATASE | 3.1.3 3.1.3.16 |
| 1G5F | STRUCTURE OF LINB COMPLEXED WITH 1,2-DICHLOROETHANE | 3.8.1 3.8.1.5 |
| 1G66 | ACETYLXYLAN ESTERASE AT 0.90 ANGSTROM RESOLUTION | 3.1.1.6 3.1.1.72 |
| 1G68 | PSE-4 CARBENICILLINASE, WILD TYPE | 3.5.2.6 |
| 1G6A | PSE-4 CARBENICILLINASE, R234K MUTANT | 3.5.2.6 |
| 1G6I | CRYSTAL STRUCTURE OF THE YEAST ALPHA-1,2-MANNOSIDASE WITH BOUND 1-DEOXYMANNOJIRIMYCIN AT 1.59 A RESOLUTION | 3.2.1.113 |
| 1G6L | 1.9A CRYSTAL STRUCTURE OF TETHERED HIV-1 PROTEASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1G7F | HUMAN PTP1B CATALYTIC DOMAIN COMPLEXED WITH PNU177496 | 3.1.3.48 |
| 1G7G | HUMAN PTP1B CATALYTIC DOMAIN COMPLEXES WITH PNU179326 | 3.1.3.48 |
| 1G86 | CHARCOT-LEYDEN CRYSTAL PROTEIN/N-ETHYLMALEIMIDE COMPLEX | 3.1.1.5 |
| 1G87 | THE CRYSTAL STRUCTURE OF ENDOGLUCANASE 9G FROM CLOSTRIDIUM CELLULOLYTICUM | 3.2.1.4 |
| 1G8M | CRYSTAL STRUCTURE OF AVIAN ATIC, A BIFUNCTIONAL TRANSFORMYLASE AND CYCLOHYDROLASE ENZYME IN PURINE BIOSYNTHESIS AT 1.75 ANG. RESOLUTION | 2.1.2.3 3.5.4.10 |
| 1G8T | SM ENDONUCLEASE FROM SERATIA MARCENSCENS AT 1.1 A RESOLUTION | 3.1.30.2 |
| 1G94 | CRYSTAL STRUCTURE ANALYSIS OF THE TERNARY COMPLEX BETWEEN PSYCHROPHILIC ALPHA AMYLASE FROM PSEUDOALTEROMONAS HALOPLANCTIS IN COMPLEX WITH A HEPTA-SACCHARIDE AND A TRIS MOLECULE | 3.2.1.1 |
| 1G9A | CRYSTAL STRUCTURE OF CLOSTRIDIUM BOTULINUM NEUROTOXIN B COMPLEXED WITH AN INHIBITOR (EXPERIMENT 3) | 3.4.24.69 |
| 1G9B | CRYSTAL STRUCTURE OF CLOSTRIDIUM BOTULINUM NEUROTOXIN B COMPLEXED WITH AN INHIBITOR (EXPERIMENT 1) | 3.4.24.69 |
| 1G9C | CRYSTAL STRUCTURE OF CLOSTRIDIUM BOTULINUM NEUROTOXIN B COMPLEXED WITH AN INHIBITOR (EXPERIMENT 4) | 3.4.24.69 |
| 1G9D | CRYSTAL STRUCTURE OF CLOSTRIDIUM BOTULINUM NEUROTOXIN B COMPLEXED WITH AN INHIBITOR (EXPERIMENT 2) | 3.4.24.69 |
| 1G9G | XTAL-STRUCTURE OF THE FREE NATIVE CELLULASE CEL48F | 3.2.1.4 |
| 1G9H | TERNARY COMPLEX BETWEEN PSYCHROPHILIC ALPHA-AMYLASE, COMII (PSEUDO TRI-SACCHARIDE FROM BAYER) AND TRIS (2-AMINO-2-HYDROXYMETHYL-PROPANE-1,3-DIOL) | 3.2.1.1 |
| 1G9I | CRYSTAL STRUCTURE OF BETA-TRYSIN COMPLEX IN CYCLOHEXANE | 3.4.21.4 |
| 1G9J | X-TAL STRUCTURE OF THE MUTANT E44Q OF THE CELLULASE CEL48F IN COMPLEX WITH A THIOOLIGOSACCHARIDE | 3.2.1.4 |
| 1G9K | CRYSTAL STRUCTURE OF A PSYCHROPHILIC ALKALINE PROTEASE FROM PSEUDOMONAS TAC II 18 | 3.4.24.40 |
| 1G9Q | COMPLEX STRUCTURE OF THE ADPR-ASE AND ITS SUBSTRATE ADP-RIBOSE | 3.6.1.13 |
| 1G9Y | HOMING ENDONUCLEASE I-CREI / DNA SUBSTRATE COMPLEX WITH CALCIUM | 3.1 |
| 1G9Z | LAGLIDADG HOMING ENDONUCLEASE I-CREI / DNA PRODUCT COMPLEX WITH MAGNESIUM | 3.1 |
| 1GA0 | STRUCTURE OF THE E. CLOACAE GC1 BETA-LACTAMASE WITH A CEPHALOSPORIN SULFONE INHIBITOR | 3.5.2.6 |
| 1GA1 | CRYSTAL STRUCTURE ANALYSIS OF PSCP (PSEUDOMONAS SERINE-CARBOXYL PROTEINASE) COMPLEXED WITH A FRAGMENT OF IODOTYROSTATIN (THIS ENZYME RENAMED SEDOLISIN" IN 2003)" | 3.4.23.37 3.4.21.100 |
| 1GA2 | THE CRYSTAL STRUCTURE OF ENDOGLUCANASE 9G FROM CLOSTRIDIUM CELLULOLYTICUM COMPLEXED WITH CELLOBIOSE | 3.2.1.4 |
| 1GA4 | CRYSTAL STRUCTURE ANALYSIS OF PSCP (PSEUDOMONAS SERINE-CARBOXYL PROTEINASE) COMPLEXED WITH INHIBITOR PSEUDOIODOTYROSTATIN (THIS ENZYME RENAMED SEDOLISIN" IN 2003)" | 3.4.23.37 3.4.21.100 |
| 1GA6 | CRYSTAL STRUCTURE ANALYSIS OF PSCP (PSEUDOMONAS SERINE-CARBOXYL PROTEINASE) COMPLEXED WITH A FRAGMENT OF TYROSTATIN (THIS ENZYME RENAMED SEDOLISIN" IN 2003)" | 3.4.23.37 3.4.21.100 |
| 1GA7 | CRYSTAL STRUCTURE OF THE ADP-RIBOSE PYROPHOSPHATASE IN COMPLEX WITH GD+3 | 3.6.1.13 |
| 1GA9 | CRYSTAL STRUCTURE OF AMPC BETA-LACTAMASE FROM E. COLI COMPLEXED WITH NON-BETA-LACTAMASE INHIBITOR (2, 3-(4-BENZENESULFONYL-THIOPHENE-2-SULFONYLAMINO)-PHENYLBORONIC ACID) | 3.5.2.6 |
| 1GAH | GLUCOAMYLASE-471 COMPLEXED WITH ACARBOSE | 3.2.1.3 |
| 1GAI | GLUCOAMYLASE-471 COMPLEXED WITH D-GLUCO-DIHYDROACARBOSE | 3.2.1.3 |
| 1GAY | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GAZ | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GB0 | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GB2 | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GB3 | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GB5 | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GB6 | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GB7 | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GB8 | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GB9 | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GBA | ALPHA-LYTIC PROTEASE WITH MET 190 REPLACED BY ALA AND GLY 216 REPLACED BY ALA | 3.4.21.12 |
| 1GBB | ALPHA-LYTIC PROTEASE WITH MET 190 REPLACED BY ALA AND GLY 216 REPLACED BY ALA COMPLEX WITH METHOXYSUCCINYL-ALA-ALA-PRO-ALANINE BORONIC ACID | 3.4.21.12 |
| 1GBC | ALPHA-LYTIC PROTEASE WITH MET 190 REPLACED BY ALA AND GLY 216 REPLACED BY ALA COMPLEX WITH METHOXYSUCCINYL-ALA-ALA-PRO-LEUCINE BORONIC ACID | 3.4.21.12 |
| 1GBD | ALPHA-LYTIC PROTEASE WITH MET 190 REPLACED BY ALA AND GLY 216 REPLACED BY ALA COMPLEX WITH METHOXYSUCCINYL-ALA-ALA-PRO-PHENYLALANINE BORONIC ACID | 3.4.21.12 |
| 1GBE | ALPHA-LYTIC PROTEASE WITH MET 190 REPLACED BY ALA AND GLY 216 REPLACED BY LEU | 3.4.21.12 |
| 1GBF | ALPHA-LYTIC PROTEASE WITH MET 190 REPLACED BY ALA AND GLY 216 REPLACED BY LEU COMPLEX WITH METHOXYSUCCINYL-ALA-ALA-PRO-ALANINE BORONIC ACID | 3.4.21.12 |
| 1GBG | BACILLUS LICHENIFORMIS BETA-GLUCANASE | 3.2.1.73 |
| 1GBH | ALPHA-LYTIC PROTEASE WITH MET 190 REPLACED BY ALA AND GLY 216 REPLACED BY LEU COMPLEX WITH METHOXYSUCCINYL-ALA-ALA-PRO-LEUCINE BORONIC ACID | 3.4.21.12 |
| 1GBI | ALPHA-LYTIC PROTEASE WITH MET 190 REPLACED BY ALA AND GLY 216 REPLACED BY LEU COMPLEX WITH METHOXYSUCCINYL-ALA-ALA-PRO-PHENYLALANINE BORONIC ACID | 3.4.21.12 |
| 1GBJ | ALPHA-LYTIC PROTEASE WITH MET 190 REPLACED BY ALA | 3.4.21.12 |
| 1GBK | ALPHA-LYTIC PROTEASE WITH MET 190 REPLACED BY ALA COMPLEX WITH METHOXYSUCCINYL-ALA-ALA-PRO-ALANINE BORONIC ACID | 3.4.21.12 |
| 1GBL | ALPHA-LYTIC PROTEASE WITH MET 190 REPLACED BY ALA COMPLEX WITH METHOXYSUCCINYL-ALA-ALA-PRO-LEUCINE BORONIC ACID | 3.4.21.12 |
| 1GBM | ALPHA-LYTIC PROTEASE WITH MET 190 REPLACED BY ALA COMPLEX WITH METHOXYSUCCINYL-ALA-ALA-PRO-PHENYLALANINE BORONIC ACID | 3.4.21.12 |
| 1GBO | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GBS | CRYSTAL STRUCTURE OF BLACK SWAN GOOSE-TYPE LYSOZYME AT 1.8 ANGSTROMS RESOLUTION | 3.2.1.17 |
| 1GBT | STRUCTURE OF AN ACYL-ENZYME INTERMEDIATE DURING CATALYSIS: (GUANIDINOBENZOYL) TRYPSIN | 3.4.21.4 |
| 1GBW | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GBX | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GBY | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GBZ | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GCB | GAL6, YEAST BLEOMYCIN HYDROLASE DNA-BINDING PROTEASE (THIOL) | 3.4.22.40 |
| 1GCD | REFINED CRYSTAL STRUCTURE OF AGED" AND "NON-AGED" ORGANOPHOSPHORYL CONJUGATES OF GAMMA-CHYMOTRYPSIN" | 3.4.21.1 |
| 1GCE | STRUCTURE OF THE BETA-LACTAMASE OF ENTEROBACTER CLOACAE GC1 | 3.5.2.6 |
| 1GCI | THE 0.78 ANGSTROMS STRUCTURE OF A SERINE PROTEASE-BACILLUS LENTUS SUBTILISIN | 3.4.21.62 |
| 1GCT | IS GAMMA-CHYMOTRYPSIN A TETRAPEPTIDE ACYL-ENZYME ADDUCT OF GAMMA-CHYMOTRYPSIN? | 3.4.21.1 |
| 1GCY | HIGH RESOLUTION CRYSTAL STRUCTURE OF MALTOTETRAOSE-FORMING EXO-AMYLASE | 3.2.1.60 |
| 1GD6 | STRUCTURE OF THE BOMBYX MORI LYSOZYME | 3.2.1.17 |
| 1GDN | FUSARIUM OXYSPORUM TRYPSIN AT ATOMIC RESOLUTION | 3.4.21.4 |
| 1GDQ | FUSARIUM OXYSPORUM TRYPSIN AT ATOMIC RESOLUTION | 3.4.21.4 |
| 1GDU | FUSARIUM OXYSPORUM TRYPSIN AT ATOMIC RESOLUTION | 3.4.21.4 |
| 1GDW | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT LEFT-HANDED HELICAL POSITIONS | 3.2.1.17 |
| 1GDX | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT LEFT-HANDED HELICAL POSITIONS | 3.2.1.17 |
| 1GE0 | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT LEFT-HANDED HELICAL POSITIONS | 3.2.1.17 |
| 1GE1 | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT LEFT-HANDED HELICAL POSITIONS | 3.2.1.17 |
| 1GE2 | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT LEFT-HANDED HELICAL POSITIONS | 3.2.1.17 |
| 1GE3 | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT LEFT-HANDED HELICAL POSITIONS | 3.2.1.17 |
| 1GE4 | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT LEFT-HANDED HELICAL POSITIONS | 3.2.1.17 |
| 1GE5 | ZINC PEPTIDASE FROM GRIFOLA FRONDOSA | 3.4.24.20 |
| 1GE6 | ZINC PEPTIDASE FROM GRIFOLA FRONDOSA | 3.4.24.20 |
| 1GE7 | ZINC PEPTIDASE FROM GRIFOLA FRONDOSA | 3.4.24.20 |
| 1GEC | GLYCYL ENDOPEPTIDASE-COMPLEX WITH BENZYLOXYCARBONYL-LEUCINE-VALINE-GLYCINE-METHYLENE COVALENTLY BOUND TO CYSTEINE 25 | 3.4.22.25 |
| 1GEF | CRYSTAL STRUCTURE OF THE ARCHAEAL HOLLIDAY JUNCTION RESOLVASE HJC | 3.1.22.4 |
| 1GEN | C-TERMINAL DOMAIN OF GELATINASE A | 3.4.24.24 |
| 1GEV | BURIED POLAR MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1GEZ | BURIED POLAR MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1GF0 | BURIED POLAR MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1GF3 | BURIED POLAR MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1GF4 | BURIED POLAR MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1GF5 | BURIED POLAR MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1GF6 | BURIED POLAR MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1GF7 | BURIED POLAR MUTANT HUMAN LYSOZYME | 3.2.1.17 |
| 1GF8 | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GF9 | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GFA | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GFE | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GFG | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GFH | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GFJ | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GFK | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GFR | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GFT | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GFU | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GFV | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1GFW | THE 2.8 ANGSTROM CRYSTAL STRUCTURE OF CASPASE-3 (APOPAIN OR CPP32)IN COMPLEX WITH AN ISATIN SULFONAMIDE INHIBITOR. | 3.4.22.56 |
| 1GFY | RESIDUE 259 IS A KEY DETERMINANT OF SUBSTRATE SPECIFICITY OF PROTEIN-TYROSINE PHOSPHATASE 1B AND ALPHA | 3.1.3.48 |
| 1GG6 | CRYSTAL STRUCTURE OF GAMMA CHYMOTRYPSIN WITH N-ACETYL-PHENYLALANINE TRIFLUOROMETHYL KETONE BOUND AT THE ACTIVE SITE | 3.4.21.1 |
| 1GGD | CRYSTAL STRUCTURE OF GAMMA CHYMOTRYPSIN WITH N-ACETYL-LEUCIL-PHENYLALANINE ALDEHYDE BOUND AT THE ACTIVE SITE | 3.4.21.1 |
| 1GGP | CRYSTAL STRUCTURE OF TRICHOSANTHES KIRILOWII LECTIN-1 AND ITS RELATION TO THE TYPE 2 RIBOSOME INACTIVATING PROTEINS | 3.2.2.22 |
| 1GGV | CRYSTAL STRUCTURE OF THE C123S MUTANT OF DIENELACTONE HYDROLASE (DLH) BOUND WITH THE PMS MOIETY OF THE PROTEASE INHIBITOR, PHENYLMETHYLSULFONYL FLUORIDE (PMSF) | 3.1.1.45 |
| 1GH4 | STRUCTURE OF THE TRIPLE MUTANT (K56M, K120M, K121M) OF PHOSPHOLIPASE A2 | 3.1.1.4 |
| 1GH6 | RETINOBLASTOMA POCKET COMPLEXED WITH SV40 LARGE T ANTIGEN | 3.6.4 |
| 1GHA | A SECOND ACTIVE SITE IN CHYMOTRYPSIN? THE X-RAY CRYSTAL STRUCTURE OF N-ACETYL-D-TRYPTOPHAN BOUND TO GAMMA-CHYMOTRYPSIN | 3.4.21.1 |
| 1GHB | A SECOND ACTIVE SITE IN CHYMOTRYPSIN? THE X-RAY CRYSTAL STRUCTURE OF N-ACETYL-D-TRYPTOPHAN BOUND TO GAMMA-CHYMOTRYPSIN | 3.4.21.1 |
| 1GHD | CRYSTAL STRUCTURE OF THE GLUTARYL-7-AMINOCEPHALOSPORANIC ACID ACYLASE BY MAD PHASING | 3.5.1 |
| 1GHI | STRUCTURE OF BETA-LACTAMASE GLU166ASP:ASN170GLN MUTANT | 3.5.2.6 |
| 1GHL | THE THREE-DIMENSIONAL STRUCTURE OF PHEASANT AND GUINEA-FOWL EGG LYSOZYMES | 3.2.1.17 |
| 1GHM | STRUCTURES OF THE ACYL-ENZYME COMPLEX OF THE STAPHYLOCOCCUS AUREUS BETA-LACTAMASE MUTANT GLU166ASP:ASN170GLN WITH DEGRADED CEPHALORIDINE | 3.5.2.6 |
| 1GHP | STRUCTURES OF THE ACYL-ENZYME COMPLEX OF THE STAPHYLOCOCCUS AUREUS BETA-LACTAMASE MUTANT GLU166ASP:ASN170GLN WITH DEGRADED BENZYLPENICILLIN | 3.5.2.6 |
| 1GHR | THE THREE-DIMENSIONAL STRUCTURES OF TWO PLANT BETA-GLUCAN ENDOHYDROLASES WITH DISTINCT SUBSTRATE SPECIFICITIES | 3.2.1.73 |
| 1GHS | THE THREE-DIMENSIONAL STRUCTURES OF TWO PLANT BETA-GLUCAN ENDOHYDROLASES WITH DISTINCT SUBSTRATE SPECIFICITIES | 3.2.1.39 |
| 1GHV | A NOVEL SERINE PROTEASE INHIBITION MOTIF INVOLVING A MULTI-CENTERED SHORT HYDROGEN BONDING NETWORK AT THE ACTIVE SITE | 3.4.21.5 |
| 1GHW | A NOVEL SERINE PROTEASE INHIBITION MOTIF INVOLVING A MULTI-CENTERED SHORT HYDROGEN BONDING NETWORK AT THE ACTIVE SITE | 3.4.21.5 |
| 1GHX | A NOVEL SERINE PROTEASE INHIBITION MOTIF INVOLVING A MULTI-CENTERED SHORT HYDROGEN BONDING NETWORK AT THE ACTIVE SITE | 3.4.21.5 |
| 1GHY | A NOVEL SERINE PROTEASE INHIBITION MOTIF INVOLVING A MULTI-CENTERED SHORT HYDROGEN BONDING NETWORK AT THE ACTIVE SITE | 3.4.21.5 |
| 1GHZ | A NOVEL SERINE PROTEASE INHIBITION MOTIF INVOLVING A MULTI-CENTERED SHORT HYDROGEN BONDING NETWORK AT THE ACTIVE SITE | 3.4.21.4 |
| 1GI0 | A NOVEL SERINE PROTEASE INHIBITION MOTIF INVOLVING A MULTI-CENTERED SHORT HYDROGEN BONDING NETWORK AT THE ACTIVE SITE | 3.4.21.4 |
| 1GI1 | A NOVEL SERINE PROTEASE INHIBITION MOTIF INVOLVING A MULTI-CENTERED SHORT HYDROGEN BONDING NETWORK AT THE ACTIVE SITE | 3.4.21.4 |
| 1GI2 | A NOVEL SERINE PROTEASE INHIBITION MOTIF INVOLVING A MULTI-CENTERED SHORT HYDROGEN BONDING NETWORK AT THE ACTIVE SITE | 3.4.21.4 |
| 1GI3 | A NOVEL SERINE PROTEASE INHIBITION MOTIF INVOLVING A MULTI-CENTERED SHORT HYDROGEN BONDING NETWORK AT THE ACTIVE SITE | 3.4.21.4 |
| 1GI4 | A NOVEL SERINE PROTEASE INHIBITION MOTIF INVOLVING A MULTI-CENTERED SHORT HYDROGEN BONDING NETWORK AT THE ACTIVE SITE | 3.4.21.4 |
| 1GI5 | A NOVEL SERINE PROTEASE INHIBITION MOTIF INVOLVING A MULTI-CENTERED SHORT HYDROGEN BONDING NETWORK AT THE ACTIVE SITE | 3.4.21.4 |
| 1GI6 | A NOVEL SERINE PROTEASE INHIBITION MOTIF INVOLVING A MULTI-CENTERED SHORT HYDROGEN BONDING NETWORK AT THE ACTIVE SITE | 3.4.21.4 |
| 1GI7 | A NOVEL SERINE PROTEASE INHIBITION MOTIF INVOLVING A MULTI-CENTERED SHORT HYDROGEN BONDING NETWORK AT THE ACTIVE SITE | 3.4.21.73 |
| 1GI8 | A NOVEL SERINE PROTEASE INHIBITION MOTIF INVOLVING A MULTI-CENTERED SHORT HYDROGEN BONDING NETWORK AT THE ACTIVE SITE | 3.4.21.73 |
| 1GI9 | A NOVEL SERINE PROTEASE INHIBITION MOTIF INVOLVING A MULTI-CENTERED SHORT HYDROGEN BONDING NETWORK AT THE ACTIVE SITE | 3.4.21.73 |
| 1GIK | POKEWEED ANTIVIRAL PROTEIN FROM SEEDS | 3.2.2.22 |
| 1GIO | NMR SOLUTION STRUCTURE OF BOVINE ANGIOGENIN, 10 STRUCTURES | 3.1.27 |
| 1GIS | A TRICHOSANTHIN(TCS) MUTANT(E85Q) COMPLEX STRUCTURE WITH 2'-DEOXY-ADENOSIN-5'-MONOPHOSPHATE | 3.2.2.22 |
| 1GIU | A TRICHOSANTHIN(TCS) MUTANT(E85R) COMPLEX STRUCTURE WITH ADENINE | 3.2.2.22 |
| 1GJ4 | SELECTIVITY AT S1, H2O DISPLACEMENT, UPA, TPA, SER190/ALA190 PROTEASE, STRUCTURE-BASED DRUG DESIGN | 3.4.21.5 |
| 1GJ5 | SELECTIVITY AT S1, H2O DISPLACEMENT, UPA, TPA, SER190/ALA190 PROTEASE, STRUCTURE-BASED DRUG DESIGN | 3.4.21.5 |
| 1GJ6 | ENGINEERING INHIBITORS HIGHLY SELECTIVE FOR THE S1 SITES OF SER190 TRYPSIN-LIKE SERINE PROTEASE DRUG TARGETS | 3.4.21.4 |
| 1GJ7 | ENGINEERING INHIBITORS HIGHLY SELECTIVE FOR THE S1 SITES OF SER190 TRYPSIN-LIKE SERINE PROTEASE DRUG TARGETS | 3.4.21.73 |
| 1GJ8 | ENGINEERING INHIBITORS HIGHLY SELECTIVE FOR THE S1 SITES OF SER190 TRYPSIN-LIKE SERINE PROTEASE DRUG TARGETS | 3.4.21.73 |
| 1GJ9 | ENGINEERING INHIBITORS HIGHLY SELECTIVE FOR THE S1 SITES OF SER190 TRYPSIN-LIKE SERINE PROTEASE DRUG TARGETS | 3.4.21.73 |
| 1GJA | ENGINEERING INHIBITORS HIGHLY SELECTIVE FOR THE S1 SITES OF SER190 TRYPSIN-LIKE SERINE PROTEASE DRUG TARGETS | 3.4.21.73 |
| 1GJB | ENGINEERING INHIBITORS HIGHLY SELECTIVE FOR THE S1 SITES OF SER190 TRYPSIN-LIKE SERINE PROTEASE DRUG TARGETS | 3.4.21.73 |
| 1GJC | ENGINEERING INHIBITORS HIGHLY SELECTIVE FOR THE S1 SITES OF SER190 TRYPSIN-LIKE SERINE PROTEASE DRUG TARGETS | 3.4.21.73 |
| 1GJD | ENGINEERING INHIBITORS HIGHLY SELECTIVE FOR THE S1 SITES OF SER190 TRYPSIN-LIKE SERINE PROTEASE DRUG TARGETS | 3.4.21.73 |
| 1GK0 | STRUCTURE-BASED PREDICTION OF MODIFICATIONS IN GLUTARYLAMIDASE TO ALLOW SINGLE-STEP ENZYMATIC PRODUCTION OF 7-AMINOCEPHALOSPORANIC ACID FROM CEPHALOSPORIN C | 3.5.1.11 3.5.1.93 |
| 1GK1 | STRUCTURE-BASED PREDICTION OF MODIFICATIONS IN GLUTARYLAMIDASE TO ALLOW SINGLE-STEP ENZYMATIC PRODUCTION OF 7-AMINOCEPHALOSPORANIC ACID FROM CEPHALOSPORIN C | 3.5.1.11 3.5.1.93 |
| 1GK9 | CRYSTAL STRUCTURES OF PENICILLIN ACYLASE ENZYME-SUBSTRATE COMPLEXES: STRUCTURAL INSIGHTS INTO THE CATALYTIC MECHANISM | 3.5.1.11 |
| 1GKC | MMP9-INHIBITOR COMPLEX | 3.4.24.35 |
| 1GKD | MMP9 ACTIVE SITE MUTANT-INHIBITOR COMPLEX | 3.4.24.35 |
| 1GKF | CRYSTAL STRUCTURES OF PENICILLIN ACYLASE ENZYME-SUBSTRATE COMPLEXES: STRUCTURAL INSIGHTS INTO THE CATALYTIC MECHANISM | 3.5.1.11 |
| 1GKK | FERULOYL ESTERASE DOMAIN OF XYNY FROM CLOSTRIDIUM THERMOCELLUM | 3.2.1.8 |
| 1GKL | S954A MUTANT OF THE FERULOYL ESTERASE MODULE FROM CLOSTRIDIUM THERMOCELLUM COMPLEXED WITH FERULIC ACID | 3.2.1.8 |
| 1GKP | D-HYDANTOINASE (DIHYDROPYRIMIDINASE) FROM THERMUS SP. IN SPACE GROUP C2221 | 3.5.2.2 |
| 1GKT | NEUTRON LAUE DIFFRACTION STRUCTURE OF ENDOTHIAPEPSIN COMPLEXED WITH TRANSITION STATE ANALOGUE INHIBITOR H261 | 3.4.23.22 |
| 1GKU | REVERSE GYRASE FROM ARCHAEOGLOBUS FULGIDUS | 3.6.4.12 5.6.2.2 |
| 1GL0 | STRUCTURE OF THE COMPLEX BETWEEN BOVINE ALPHA-CHYMOTRYPSIN AND PMP-D2V, AN INHIBITOR FROM THE INSECT LOCUSTA MIGRATORIA | 3.4.21.1 |
| 1GL1 | STRUCTURE OF THE COMPLEX BETWEEN BOVINE ALPHA-CHYMOTRYPSIN AND PMP-C, AN INHIBITOR FROM THE INSECT LOCUSTA MIGRATORIA | 3.4.21.1 |
| 1GL9 | ARCHAEOGLOBUS FULGIDUS REVERSE GYRASE COMPLEXED WITH ADPNP | 3.6.4.12 5.6.2.2 |
| 1GLH | CATION BINDING TO A BACILLUS (1,3-1,4)-BETA-GLUCANASE. GEOMETRY, AFFINITY AND EFFECT ON PROTEIN STABILITY | 3.2.1.73 |
| 1GLM | REFINED CRYSTAL STRUCTURES OF GLUCOAMYLASE FROM ASPERGILLUS AWAMORI VAR. X100 | 3.2.1.3 |
| 1GLO | CRYSTAL STRUCTURE OF CYS25SER MUTANT OF HUMAN CATHEPSIN S | 3.4.22.27 |
| 1GM1 | SECOND PDZ DOMAIN (PDZ2) OF PTP-BL | 3.1.3.48 |
| 1GM5 | STRUCTURE OF RECG BOUND TO THREE-WAY DNA JUNCTION | 3.6.4.12 |
| 1GM7 | CRYSTAL STRUCTURES OF PENICILLIN ACYLASE ENZYME-SUBSTRATE COMPLEXES: STRUCTURAL INSIGHTS INTO THE CATALYTIC MECHANISM | 3.5.1.11 |
| 1GM8 | CRYSTAL STRUCTURES OF PENICILLIN ACYLASE ENZYME-SUBSTRATE COMPLEXES: STRUCTURAL INSIGHTS INTO THE CATALYTIC MECHANISM | 3.5.1.11 |
| 1GM9 | CRYSTAL STRUCTURES OF PENICILLIN ACYLASE ENZYME-SUBSTRATE COMPLEXES: STRUCTURAL INSIGHTS INTO THE CATALYTIC MECHANISM | 3.5.1.11 |
| 1GMH | REFINED CRYSTAL STRUCTURE OF AGED" AND "NON-AGED" ORGANOPHOSPHORYL CONJUGATES OF GAMMA-CHYMOTRYPSIN" | 3.4.21.1 |
| 1GMM | CARBOHYDRATE BINDING MODULE CBM6 FROM XYLANASE U CLOSTRIDIUM THERMOCELLUM | 3.2.1.8 |
| 1GMP | COMPLEX OF RIBONUCLEASE FROM STREPTOMYCES AUREOFACIENS WITH 2'-GMP AT 1.7 ANGSTROMS RESOLUTION | 3.1.27.3 4.6.1.24 |
| 1GMQ | COMPLEX OF RIBONUCLEASE FROM STREPTOMYCES AUREOFACIENS WITH 2'-GMP AT 1.7 ANGSTROMS RESOLUTION | 3.1.27.3 4.6.1.24 |
| 1GMR | COMPLEX OF RIBONUCLEASE FROM STREPTOMYCES AUREOFACIENS WITH 2'-GMP AT 1.7 ANGSTROMS RESOLUTION | 3.1.27.3 4.6.1.24 |
| 1GMY | CATHEPSIN B COMPLEXED WITH DIPEPTIDYL NITRILE INHIBITOR | 3.4.22.1 |
| 1GMZ | CRYSTAL STRUCTURE OF THE D49 PHOSPHOLIPASE A2 PIRATOXIN III FROM BOTHROPS PIRAJAI. | 3.1.1.4 |
| 1GNM | HIV-1 PROTEASE MUTANT WITH VAL 82 REPLACED BY ASP (V82D) COMPLEXED WITH U89360E (INHIBITOR) | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1GNN | HIV-1 PROTEASE MUTANT WITH VAL 82 REPLACED BY ASN (V82N) COMPLEXED WITH U89360E (INHIBITOR) | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1GNO | HIV-1 PROTEASE (WILD TYPE) COMPLEXED WITH U89360E (INHIBITOR) | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1GNP | X-RAY CRYSTAL STRUCTURE ANALYSIS OF THE CATALYTIC DOMAIN OF THE ONCOGENE PRODUCT P21H-RAS COMPLEXED WITH CAGED GTP AND MANT DGPPNHP | 3.6.5.2 |
| 1GNQ | X-RAY CRYSTAL STRUCTURE ANALYSIS OF THE CATALYTIC DOMAIN OF THE ONCOGENE PRODUCT P21H-RAS COMPLEXED WITH CAGED GTP AND MANT DGPPNHP | 3.6.5.2 |
| 1GNR | X-RAY CRYSTAL STRUCTURE ANALYSIS OF THE CATALYTIC DOMAIN OF THE ONCOGENE PRODUCT P21H-RAS COMPLEXED WITH CAGED GTP AND MANT DGPPNHP | 3.6.5.2 |
| 1GNS | SUBTILISIN BPN' | 3.4.21.62 |
| 1GNV | CALCIUM INDEPENDENT SUBTILISIN BPN' MUTANT | 3.4.21.62 |
| 1GNX | B-GLUCOSIDASE FROM STREPTOMYCES SP | 3.2.1.21 |
| 1GNY | XYLAN-BINDING MODULE CBM15 | 3.2.1.8 |
| 1GO7 | THE METZINCIN'S METHIONINE: PRTC M226C-E189K DOUBLE MUTANT | 3.4.24.40 |
| 1GO8 | THE METZINCIN'S METHIONINE: PRTC M226L MUTANT | 3.4.24.40 |
| 1GOA | COOPERATIVE STABILIZATION OF ESCHERICHIA COLI RIBONUCLEASE HI BY INSERTION OF GLY-80B AND GLY-77-> ALA SUBSTITUTION | 3.1.26.4 |
| 1GOB | COOPERATIVE STABILIZATION OF ESCHERICHIA COLI RIBONUCLEASE HI BY INSERTION OF GLY-80B AND GLY-77-> ALA SUBSTITUTION | 3.1.26.4 |
| 1GOC | COOPERATIVE STABILIZATION OF ESCHERICHIA COLI RIBONUCLEASE HI BY INSERTION OF GLY-80B AND GLY-77-> ALA SUBSTITUTION | 3.1.26.4 |
| 1GOD | MONOMERIC LYS-49 PHOSPHOLIPASE A2 HOMOLOGUE ISOLATED FROM THE VENOM OF CERROPHIDION (BOTHROPS) GODMANI | 3.1.1.4 |
| 1GOI | CRYSTAL STRUCTURE OF THE D140N MUTANT OF CHITINASE B FROM SERRATIA MARCESCENS AT 1.45 A RESOLUTION | 3.2.1.14 |
| 1GOJ | STRUCTURE OF A FAST KINESIN: IMPLICATIONS FOR ATPASE MECHANISM AND INTERACTIONS WITH MICROTUBULES | 3.6.4.4 |
| 1GOK | THERMOSTABLE XYLANASE I FROM THERMOASCUS AURANTIACUS- CRYSTAL FORM II | 3.2.1.8 |
| 1GOM | THERMOSTABLE XYLANASE I FROM THERMOASCUS AURANTIACUS- CRYSTAL FORM I | 3.2.1.8 |
| 1GON | B-GLUCOSIDASE FROM STREPTOMYCES SP | 3.2.1.21 |
| 1GOO | THERMOSTABLE XYLANASE I FROM THERMOASCUS AURANTIACUS - CRYOCOOLED GLYCEROL COMPLEX | 3.2.1.8 |
| 1GOQ | THERMOSTABLE XYLANASE I FROM THERMOASCUS AURANTIACUS - ROOM TEMPERATURE XYLOBIOSE COMPLEX | 3.2.1.8 |
| 1GOR | THERMOSTABLE XYLANASE I FROM THERMOASCUS AURANTIACUS - XYLOBIOSE COMPLEX AT 100 K | 3.2.1.8 |
| 1GOU | RIBONUCLEASE BINASE (G SPECIFIC ENDONUCLEASE) UNLIGANDED FORM | 3.1.27.3 3.1.27 |
| 1GOV | RIBONUCLEASE BI(G SPECIFIC ENDONUCLEASE) COMPLEXED WITH SULFATE IONS | 3.1.27.3 3.1.27 |
| 1GOW | BETA-GLYCOSIDASE FROM SULFOLOBUS SOLFATARICUS | 3.2.1.23 |
| 1GOY | HYDROLASE(ENDORIBONUCLEASE)RIBONUCLEASE BI(G SPECIFIC ENDONUCLEASE) (E.C.3.1.27.-) COMPLEXED WITH GUANOSINE-3'-PHOSPHATE (3'-GMP) | 3.1.27.3 3.1.27 |
| 1GP7 | ACIDIC PHOSPHOLIPASE A2 FROM VENOM OF OPHIOPHAGUS HANNAH | 3.1.1.4 |
| 1GPF | CHITINASE B FROM SERRATIA MARCESCENS IN COMPLEX WITH INHIBITOR PSAMMAPLIN | 3.2.1.14 |
| 1GPI | CELLOBIOHYDROLASE CEL7D (CBH 58) FROM PHANEROCHAETE CHRYSOSPORIUM. CATALYTIC MODULE AT 1.32 ANGSTROM RESOLUTION | 3.2.1.91 3.2.1 |
| 1GPK | STRUCTURE OF ACETYLCHOLINESTERASE COMPLEX WITH (+)-HUPERZINE A AT 2.1A RESOLUTION | 3.1.1.7 |
| 1GPL | RP2 LIPASE | 3.1.1.3 3.1.1.26 |
| 1GPN | STRUCTURE OF ACETYLCHOLINESTERASE COMPLEXED WITH HUPERZINE B AT 2.35A RESOLUTION | 3.1.1.7 |
| 1GPP | CRYSTAL STRUCTURE OF THE S.CEREVISIAE HOMING ENDONUCLEASE PI-SCEI DOMAIN I | 3.6.3.14 7.1.2.2 3.1 |
| 1GPZ | THE CRYSTAL STRUCTURE OF THE ZYMOGEN CATALYTIC DOMAIN OF COMPLEMENT PROTEASE C1R | 3.4.21.41 |
| 1GQ6 | PROCLAVAMINATE AMIDINO HYDROLASE FROM STREPTOMYCES CLAVULIGERUS | 3.5.3.11 3.5.3.22 |
| 1GQ7 | PROCLAVAMINATE AMIDINO HYDROLASE FROM STREPTOMYCES CLAVULIGERUS | 3.5.3.11 3.5.3.22 |
| 1GQ8 | PECTIN METHYLESTERASE FROM CARROT | 3.1.1.11 |
| 1GQF | CRYSTAL STRUCTURE OF HUMAN PROCASPASE-7 | 3.4.22.60 |
| 1GQI | STRUCTURE OF PSEUDOMONAS CELLULOSA ALPHA-D-GLUCURONIDASE | 3.2.1.139 3.2.1.131 |
| 1GQJ | STRUCTURE OF PSEUDOMONAS CELLULOSA ALPHA-D-GLUCURONIDASE COMPLEXED WITH XYLOBIOSE | 3.2.1.139 3.2.1.131 |
| 1GQK | STRUCTURE OF PSEUDOMONAS CELLULOSA ALPHA-D-GLUCURONIDASE COMPLEXED WITH GLUCURONIC ACID | 3.2.1.139 3.2.1.131 |
| 1GQL | STRUCTURE OF PSEUDOMONAS CELLULOSA ALPHA-D-GLUCURONIDASE COMPLEXED WITH GLUCURONIC ACID AND XYLOTRIOSE | 3.2.1.139 3.2.1.131 |
| 1GQR | ACETYLCHOLINESTERASE (E.C. 3.1.1.7) COMPLEXED WITH RIVASTIGMINE | 3.1.1.7 |
| 1GQS | ACETYLCHOLINESTERASE (E.C. 3.1.1.7) COMPLEXED WITH NAP | 3.1.1.7 |
| 1GQV | ATOMIC RESOLUTION (0.98A) STRUCTURE OF EOSINOPHIL-DERIVED NEUROTOXIN | 3.1.27.5 4.6.1.18 |
| 1GRN | CRYSTAL STRUCTURE OF THE CDC42/CDC42GAP/ALF3 COMPLEX. | 3.6.5.2 |
| 1GSP | RIBONUCLEASE T1 COMPLEXED WITH 2',3'-CGPS, 1 DAY | 3.1.27.3 4.6.1.24 |
| 1GT6 | S146A MUTANT OF THERMOMYCES (HUMICOLA) LANUGINOSA LIPASE COMPLEX WITH OLEIC ACID | 3.1.1.3 |
| 1GU3 | CBM4 STRUCTURE AND FUNCTION | 3.2.1.4 |
| 1GUA | HUMAN RAP1A, RESIDUES 1-167, DOUBLE MUTANT (E30D,K31E) COMPLEXED WITH GPPNHP AND THE RAS-BINDING-DOMAIN OF HUMAN C-RAF1, RESIDUES 51-131 | 3.6.5.2 |
| 1GUV | STRUCTURE OF HUMAN CHITOTRIOSIDASE | 3.2.1.14 |
| 1GV7 | ARH-I, AN ANGIOGENIN/RNASE A CHIMERA | 3.1.27.5 4.6.1.18 |
| 1GVL | HUMAN PROKALLIKREIN 6 (HK6)/ PROZYME/ PROPROTEASE M/ PRONEUROSIN | 3.4.21 |
| 1GVM | CHOLINE BINDING DOMAIN OF THE MAJOR AUTOLYSIN (C-LYTA) FROM STREPTOCOCCUS PNEUMONIAE | 3.5.1.28 |
| 1GVT | ENDOTHIAPEPSIN COMPLEX WITH CP-80,794 | 3.4.23.22 |
| 1GVU | ENDOTHIAPEPSIN COMPLEX WITH H189 | 3.4.23.22 |
| 1GVV | FIVE ATOMIC RESOLUTION STRUCTURES OF ENDOTHIAPEPSIN INHIBITOR COMPLEXES; IMPLICATIONS FOR THE ASPARTIC PROTEINASE MECHANISM | 3.4.23.22 |
| 1GVW | ENDOTHIAPEPSIN COMPLEX WITH PD-130,328 | 3.4.23.22 |
| 1GVX | ENDOTHIAPEPSIN COMPLEXED WITH H256 | 3.4.23.22 |
| 1GVY | SUBSTRATE DISTORSION BY BETA-MANNANASE FROM PSEUDOMONAS CELLULOSA | 3.2.1.78 |
| 1GVZ | PROSTATE SPECIFIC ANTIGEN (PSA) FROM STALLION SEMINAL PLASMA | 3.4.21.35 |
| 1GW1 | SUBSTRATE DISTORTION BY BETA-MANNANASE FROM PSEUDOMONAS CELLULOSA | 3.2.1.78 |
| 1GW6 | STRUCTURE OF LEUKOTRIENE A4 HYDROLASE D375N MUTANT | 3.3.2.6 3.4.11.4 |
| 1GWA | TRIIODIDE DERIVATIVE OF PORCINE PANCREAS ELASTASE | 3.4.21.36 |
| 1GWD | TRI-IODIDE DERIVATIVE OF HEN EGG-WHITE LYSOZYME | 3.2.1.17 |
| 1GWZ | CRYSTAL STRUCTURE OF THE CATALYTIC DOMAIN OF THE PROTEIN TYROSINE PHOSPHATASE SHP-1 | 3.1.3.48 |
| 1GX5 | HEPATITIS C VIRUS RNA POLYMERASE IN COMPLEX WITH GTP AND MANGANESE | 2.7.7.48 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 |
| 1GX6 | HEPATITIS C VIRUS RNA POLYMERASE IN COMPLEX WITH UTP AND MANGANESE | 2.7.7.48 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 |
| 1GXD | PROMMP-2/TIMP-2 COMPLEX | 3.4.24.24 |
| 1GXV | SOLUTION STRUCTURE OF LYSOZYME AT LOW AND HIGH PRESSURE | 3.2.1.17 |
| 1GXW | THE 2.2 A RESOLUTION STRUCTURE OF THERMOLYSIN CRYSTALLIZED IN PRESENCE OF POTASSIUM THIOCYANATE | 3.4.24.27 |
| 1GXX | SOLUTION STRUCTURE OF LYSOZYME AT LOW AND HIGH PRESSURE | 3.2.1.17 |
| 1GXY | CRYSTAL STRUCTURE OF THE EUCARYOTIC MONO-ADP-RIBOSYLTRANSFERASE ART2.2; CRYSTAL FORM A (P21) | 2.4.2.31 3.2.2.5 |
| 1GXZ | CRYSTAL STRUCTURE OF THE EUKARYOTIC MONO-ADP-RIBOSYLTRANSFERASE ART2.2; CRYSTAL FORM B (P212121) | 2.4.2.31 3.2.2.5 |
| 1GY0 | CRYSTAL STRUCTURE OF THE EUCARYOTIC MONO-ADP-RIBOSYLTRANSFERASE ART2.2; CRYSTAL FORM C (P3121) | 2.4.2.31 3.2.2.5 |
| 1GYD | STRUCTURE OF CELLVIBRIO CELLULOSA ALPHA-L-ARABINANASE | 3.2.1.99 3.2.1.55 |
| 1GYE | STRUCTURE OF CELLVIBRIO CELLULOSA ALPHA-L-ARABINANASE COMPLEXED WITH ARABINOHEXAOSE | 3.2.1.99 3.2.1.55 |
| 1GYG | R32 CLOSED FORM OF ALPHA-TOXIN FROM CLOSTRIDIUM PERFRINGENS STRAIN CER89L43 | 3.1.4.3 |
| 1GYH | STRUCTURE OF D158A CELLVIBRIO CELLULOSA ALPHA-L-ARABINANASE MUTANT | 3.2.1.99 3.2.1.55 |
| 1GYM | PHOSPHATIDYLINOSITOL-SPECIFIC PHOSPHOLIPASE C IN COMPLEX WITH GLUCOSAMINE-(ALPHA-1-6)-MYO-INOSITOL | 3.1.4.10 4.6.1.13 |
| 1GZ1 | MUTANT D416A OF THE CELLOBIOHYDROLASE CEL6A FROM HUMICOLA INSOLENS IN COMPLEX WITH METHYL-CELLOBIOSYL-4-DEOXY-4-THIO-BETA-D-CELLOBIOSIDE | 3.2.1.91 |
| 1GZ7 | CRYSTAL STRUCTURE OF THE CLOSED STATE OF LIPASE 2 FROM CANDIDA RUGOSA | 3.1.1.3 |
| 1GZJ | STRUCTURE OF THERMOASCUS AURANTIACUS FAMILY 5 ENDOGLUCANASE | 3.2.1.4 |
| 1GZS | CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN THE GEF DOMAIN OF THE SALMONELLA TYPHIMURIUM SOPE TOXIN AND HUMAN CDC42 | 3.6.5.2 |
| 1H09 | MULTIMODULAR PNEUMOCOCCAL CELL WALL ENDOLYSIN FROM PHAGE CP-1 | 3.2.1.17 |
| 1H0B | ENDOGLUCANASE CEL12A FROM RHODOTHERMUS MARINUS | 3.2.1.4 |
| 1H0G | COMPLEX OF A CHITINASE WITH THE NATURAL PRODUCT CYCLOPENTAPEPTIDE ARGADIN FROM CLONOSTACHYS | 3.2.1.14 |
| 1H0I | COMPLEX OF A CHITINASE WITH THE NATURAL PRODUCT CYCLOPENTAPEPTIDE ARGIFIN FROM GLIOCLADIUM | 3.2.1.14 |
| 1H11 | 2-DEOXY-2-FLURO-B-D-CELLOTRIOSYL/ENZYME INTERMEDIATE COMPLEX OF THE ENDOGLUCANASE CEL5A FROM BACILLUS AGARADHEARANS AT 1.08 ANGSTROM RESOLUTION | 3.2.1.4 |
| 1H12 | STRUCTURE OF A COLD-ADAPTED FAMILY 8 XYLANASE | 3.2.1.8 3.2.1.4 |
| 1H13 | STRUCTURE OF A COLD-ADAPTED FAMILY 8 XYLANASE | 3.2.1.8 3.2.1.4 |
| 1H14 | STRUCTURE OF A COLD-ADAPTED FAMILY 8 XYLANASE | 3.2.1.8 3.2.1.4 |
| 1H19 | STRUCTURE OF [E271Q]LEUKOTRIENE A4 HYDROLASE | 3.3.2.6 3.4.11.4 |
| 1H1A | THERMOPHILIC BETA-1,4-XYLANASE FROM CHAETOMIUM THERMOPHILUM | 3.2.1.8 |
| 1H1B | CRYSTAL STRUCTURE OF HUMAN NEUTROPHIL ELASTASE COMPLEXED WITH AN INHIBITOR (GW475151) | 3.4.21.37 |
| 1H1H | CRYSTAL STRUCTURE OF EOSINOPHIL CATIONIC PROTEIN IN COMPLEX WITH 2',5'-ADP AT 2.0 A RESOLUTION REVEALS THE DETAILS OF THE RIBONUCLEOLYTIC ACTIVE SITE | 3.1.27 |
| 1H1N | ATOMIC RESOLUTION STRUCTURE OF THE MAJOR ENDOGLUCANASE FROM THERMOASCUS AURANTIACUS | 3.2.1.4 |
| 1H22 | STRUCTURE OF ACETYLCHOLINESTERASE (E.C. 3.1.1.7) COMPLEXED WITH (S,S)-(-)-BIS(10)-HUPYRIDONE AT 2.15A RESOLUTION | 3.1.1.7 |
| 1H23 | STRUCTURE OF ACETYLCHOLINESTERASE (E.C. 3.1.1.7) COMPLEXED WITH (S,S)-(-)-BIS(12)-HUPYRIDONE AT 2.15A RESOLUTION | 3.1.1.7 |
| 1H2G | ALTERED SUBSTRATE SPECIFICITY MUTANT OF PENICILLIN ACYLASE | 3.5.1.11 |
| 1H2J | ENDOGLUCANASE CEL5A IN COMPLEX WITH UNHYDROLYSED AND COVALENTLY LINKED 2,4-DINITROPHENYL-2-DEOXY-2-FLUORO-CELLOBIOSIDE AT 1.15 A RESOLUTION | 3.2.1.4 |
| 1H2W | PROLYL OLIGOPEPTIDASE FROM PORCINE BRAIN | 3.4.21.26 |
| 1H2X | PROLYL OLIGOPEPTIDASE FROM PORCINE BRAIN, Y473F MUTANT | 3.4.21.26 |
| 1H2Y | PROLYL OLIGOPEPTIDASE FROM PORCINE BRAIN, Y473F MUTANT WITH COVALENTLY BOUND INHIBITOR Z-PRO-PROLINAL | 3.4.21.26 |
| 1H2Z | PROLYL OLIGOPEPTIDASE FROM PORCINE BRAIN, S554A MUTANT WITH BOUND PEPTIDE LIGAND SUC-GLY-PRO | 3.4.21.26 |
| 1H3G | CYCLOMALTODEXTRINASE FROM FLAVOBACTERIUM SP. NO. 92: FROM DNA SEQUENCE TO PROTEIN STRUCTURE | 3.2.1.54 |
| 1H41 | PSEUDOMONAS CELLULOSA E292A ALPHA-D-GLUCURONIDASE MUTANT COMPLEXED WITH ALDOTRIURONIC ACID | 3.2.1.139 3.2.1.131 |
| 1H43 | R210E N-TERMINAL LOBE HUMAN LACTOFERRIN | 3.4.21 |
| 1H44 | R210L N-TERMINAL LOBE HUMAN LACTOFERRIN | 3.4.21 |
| 1H45 | R210G N-TERMINAL LOBE HUMAN LACTOFERRIN | 3.4.21 |
| 1H46 | THE CATALYTIC MODULE OF CEL7D FROM PHANEROCHAETE CHRYSOSPORIUM AS A CHIRAL SELECTOR: STRUCTURAL STUDIES OF ITS COMPLEX WITH THE B-BLOCKER (R)-PROPRANOLOL | 3.2.1.91 3.2.1 |
| 1H49 | CRYSTAL STRUCTURE OF THE INACTIVE DOUBLE MUTANT OF THE MAIZE BETA-GLUCOSIDASE ZMGLU1-E191D-F198V IN COMPLEX WITH DIMBOA-GLUCOSIDE | 3.2.1.21 3.2.1.182 |
| 1H4G | OLIGOSACCHARIDE-BINDING TO FAMILY 11 XYLANASES: BOTH COVALENT INTERMEDIATE AND MUTANT-PRODUCT COMPLEXES DISPLAY 2,5B CONFORMATIONS AT THE ACTIVE-CENTRE | 3.2.1.8 |
| 1H4H | OLIGOSACCHARIDE-BINDING TO FAMILY 11 XYLANASES: BOTH COVALENT INTERMEDIATE AND MUTANT-PRODUCT COMPLEXES DISPLAY 2,5B CONFORMATIONS AT THE ACTIVE-CENTRE | 3.2.1.8 |
| 1H4W | STRUCTURE OF HUMAN TRYPSIN IV (BRAIN TRYPSIN) | 3.4.21.4 |
| 1H52 | BINDING OF PHOSPHATE AND PYROPHOSPHATE IONS AT THE ACTIVE SITE OF HUMAN ANGIOGENIN AS REVEALED BY X-RAY CRYSTALLOGRAPHY | 3.1.27 |
| 1H53 | BINDING OF PHOSPHATE AND PYROPHOSPHATE IONS AT THE ACTIVE SITE OF HUMAN ANGIOGENIN AS REVEALED BY X-RAY CRYSTALLOGRAPHY | 3.1.27 |
| 1H56 | STRUCTURAL AND BIOCHEMICAL CHARACTERIZATION OF A NEW MAGNESIUM ION BINDING SITE NEAR TYR94 IN THE RESTRICTION ENDONUCLEASE PVUII | 3.1.21.4 |
| 1H5V | THIOPENTASACCHARIDE COMPLEX OF THE ENDOGLUCANASE CEL5A FROM BACILLUS AGARADHARENS AT 1.1 A RESOLUTION IN THE TETRAGONAL CRYSTAL FORM | 3.2.1.4 |
| 1H5X | CRYSTAL STRUCTURE OF THE CLASS D BETA-LACTAMASE OXA-13 COMPLEXED WITH IMIPENEM | 3.5.2.6 |
| 1H65 | CRYSTAL STRUCTURE OF PEA TOC34 - A NOVEL GTPASE OF THE CHLOROPLAST PROTEIN TRANSLOCON | 3.6.5 |
| 1H6L | BETA-PROPELLER PHYTASE IN COMPLEX WITH PHOSPHATE AND CALCIUM IONS | 3.1.3.8 |
| 1H6M | COVALENT GLYCOSYL-ENZYME INTERMEDIATE OF HEN EGG WHITE LYSOZYME | 3.2.1.17 |
| 1H6X | THE ROLE OF CONSERVED AMINO ACIDS IN THE CLEFT OF THE C-TERMINAL FAMILY 22 CARBOHYDRATE BINDING MODULE OF CLOSTRIDIUM THERMOCELLUM XYN10B IN LIGAND BINDING | 3.2.1.8 |
| 1H6Y | THE ROLE OF CONSERVED AMINO ACIDS IN THE CLEFT OF THE C-TERMINAL FAMILY 22 CARBOHYDRATE BINDING MODULE OF CLOSTRIDIUM THERMOCELLUM XYN10B IN LIGAND BINDING | 3.2.1.8 |
| 1H70 | DDAH FROM PSEUDOMONAS AERUGINOSA. C249S MUTANT COMPLEXED WITH CITRULLINE | 3.5.3.18 |
| 1H71 | PSYCHROPHILIC PROTEASE FROM PSEUDOALTEROMONAS 'TAC II 18' | 3.4.24.40 |
| 1H7S | N-TERMINAL 40KDA FRAGMENT OF HUMAN PMS2 | 3.1 |
| 1H7U | HPMS2-ATPGS | 3.1 |
| 1H80 | 1,3-ALPHA-1,4-BETA-D-GALACTOSE-4-SULFATE- 3,6-ANHYDRO-D-GALACTOSE-2-SULFATE 4 GALACTOHYDROLASE | 3.2.1.157 |
| 1H87 | GADOLINIUM DERIVATIVE OF TETRAGONAL HEN EGG-WHITE LYSOZYME AT 1.7 A RESOLUTION | 3.2.1.17 |
| 1H8D | X-RAY STRUCTURE OF THE HUMAN ALPHA-THROMBIN COMPLEX WITH A TRIPEPTIDE PHOSPHONATE INHIBITOR. | 3.4.21.5 |
| 1H8G | C-TERMINAL DOMAIN OF THE MAJOR AUTOLYSIN (C-LYTA) FROM STREPTOCOCCUS PNEUMONIAE | 3.5.1.28 |
| 1H8I | X-RAY CRYSTAL STRUCTURE OF HUMAN ALPHA-THROMBIN WITH A TRIPEPTIDE PHOSPHONATE INHIBITOR. | 3.4.21.5 |
| 1H8L | DUCK CARBOXYPEPTIDASE D DOMAIN II IN COMPLEX WITH GEMSA | 3.4.17.22 |
| 1H8T | ECHOVIRUS 11 | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1H8V | THE X-RAY CRYSTAL STRUCTURE OF THE TRICHODERMA REESEI FAMILY 12 ENDOGLUCANASE 3, CEL12A, AT 1.9 A RESOLUTION | 3.2.1.4 |
| 1H8X | DOMAIN-SWAPPED DIMER OF A HUMAN PANCREATIC RIBONUCLEASE VARIANT | 3.1.27.5 4.6.1.18 |
| 1H8Y | CRYSTAL STRUCTURE OF THE CLASS D BETA-LACTAMASE OXA-13 IN COMPLEX WITH MEROPENEM | 3.5.2.6 |
| 1H8Z | CRYSTAL STRUCTURE OF THE CLASS D BETA-LACTAMASE OXA-13 | 3.5.2.6 |
| 1H9H | COMPLEX OF EETI-II WITH PORCINE TRYPSIN | 3.4.21.4 |
| 1H9I | COMPLEX OF EETI-II MUTANT WITH PORCINE TRYPSIN | 3.4.21.4 |
| 1HA3 | ELONGATION FACTOR TU IN COMPLEX WITH AURODOX | 3.1.5.1 |
| 1HAG | THE ISOMORPHOUS STRUCTURES OF PRETHROMBIN2, HIRUGEN-AND PPACK-THROMBIN: CHANGES ACCOMPANYING ACTIVATION AND EXOSITE BINDING TO THROMBIN | 3.4.21.5 |
| 1HAH | THE ISOMORPHOUS STRUCTURES OF PRETHROMBIN2, HIRUGEN-AND PPACK-THROMBIN: CHANGES ACCOMPANYING ACTIVATION AND EXOSITE BINDING TO THROMBIN | 3.4.21.5 |
| 1HAI | THE ISOMORPHOUS STRUCTURES OF PRETHROMBIN2, HIRUGEN-AND PPACK-THROMBIN: CHANGES ACCOMPANYING ACTIVATION AND EXOSITE BINDING TO THROMBIN | 3.4.21.5 |
| 1HAR | 2.2 ANGSTROMS RESOLUTION STRUCTURE OF THE AMINO-TERMINAL HALF OF HIV-1 REVERSE TRANSCRIPTASE (FINGERS AND PALM SUBDOMAINS) | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HAV | HEPATITIS A VIRUS 3C PROTEINASE | 2.7.7.48 3.6.1.15 3.4.22.28 |
| 1HAY | SNAPSHOTS OF SERINE PROTEASE CATALYSIS: (B) ACYL-ENZYME INTERMEDIATE BETWEEN PORCINE PANCREATIC ELASTASE AND HUMAN BETA-CASOMORPHIN-7 JUMPED TO PH 10 FOR 10 SECONDS | 3.4.21.11 3.4.21.36 |
| 1HB0 | SNAPSHOTS OF SERINE PROTEASE CATALYSIS: (D) ACYL-ENZYME INTERMEDIATE BETWEEN PORCINE PANCREATIC ELASTASE AND HUMAN BETA-CASOMORPHIN-7 JUMPED TO PH 10 FOR 2 MINUTES | 3.4.21.11 3.4.21.36 |
| 1HBJ | X-RAY CRYSTAL STRUCTURE OF COMPLEX BETWEEN TORPEDO CALIFORNICA ACHE AND A REVERSIBLE INHIBITOR, 4-AMINO-5-FLUORO-2-METHYL-3-(3-TRIFLUOROACETYLBENZYLTHIOMETHYL)QUINOLINE | 3.1.1.7 |
| 1HBT | HUMAN ALPHA-THROMBIN COMPLEXED WITH A PEPTIDYL PYRIDINIUM METHYL KETONE CONTAINING BIVALENT INHIBITOR | 3.4.21.5 |
| 1HBV | A CHECK ON RATIONAL DRUG DESIGN. CRYSTAL STRUCTURE OF A COMPLEX OF HIV-1 PROTEASE WITH A NOVEL GAMMA-TURN MIMETIC | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HBY | BINDING OF PHOSPHATE AND PYROPHOSPHATE IONS AT THE ACTIVE SITE OF HUMAN ANGIOGENIN AS REVEALED BY X-RAY CRYSTALLOGRAPHY | 3.1.27 |
| 1HC0 | STRUCTURE OF LYSOZYME WITH PERIODATE | 3.2.1.17 |
| 1HCG | STRUCTURE OF HUMAN DES(1-45) FACTOR XA AT 2.2 ANGSTROMS RESOLUTION | 3.4.21.6 |
| 1HCU | ALPHA-1,2-MANNOSIDASE FROM TRICHODERMA REESEI | 3.2.1.113 3.2.1 |
| 1HCX | CHOLINE BINDING DOMAIN OF THE MAJOR AUTOLYSIN (C-LYTA) FROM STREPTOCOCCUS PNEUMONIAE | 3.5.1.28 |
| 1HD5 | ENDOGLUCANASE FROM HUMICOLA INSOLENS AT 1.7A RESOLUTION | 3.2.1.4 |
| 1HD7 | A SECOND DIVALENT METAL ION IN THE ACTIVE SITE OF A NEW CRYSTAL FORM OF HUMAN APURINIC/APYRIDINIMIC ENDONUCLEASE, APE1, AND ITS IMPLICATIONS FOR THE CATALYTIC MECHANISM | 4.2.99.18 3.1 |
| 1HD8 | CRYSTAL STRUCTURE OF A DEACYLATION-DEFECTIVE MUTANT OF PENICILLIN-BINDING PROTEIN 5 AT 2.3 A RESOLUTION | 3.4.16.4 3.5.2.6 |
| 1HDE | HALOALKANE DEHALOGENASE MUTANT WITH PHE 172 REPLACED WITH TRP | 3.8.1.5 |
| 1HDH | ARYLSULFATASE FROM PSEUDOMONAS AERUGINOSA | 3.1.6.1 |
| 1HDK | CHARCOT-LEYDEN CRYSTAL PROTEIN - PCMBS COMPLEX | 3.1.1.5 |
| 1HDQ | CRYSTAL STRUCTURE OF BOVINE PANCREATIC CARBOXYPEPTIDASE A COMPLEXED WITH D-N-HYDROXYAMINOCARBONYL PHENYLALANINE AT 2.3 A | 3.4.17.1 |
| 1HDT | STRUCTURE OF A RETRO-BINDING PEPTIDE INHIBITOR COMPLEXED WITH HUMAN ALPHA-THROMBIN | 3.4.21.5 |
| 1HDU | CRYSTAL STRUCTURE OF BOVINE PANCREATIC CARBOXYPEPTIDASE A COMPLEXED WITH AMINOCARBONYLPHENYLALANINE AT 1.75 A | 3.4.17.1 |
| 1HEE | CRYSTAL STRUCTURE OF BOVINE PANCREATIC CARBOXYPEPTIDASE A COMPLEXED WITH L-N-HYDROXYAMINOCARBONYL PHENYLALANINE AT 2.3 A | 3.4.17.1 |
| 1HEF | THE CRYSTAL STRUCTURES AT 2.2 ANGSTROMS RESOLUTION OF HYDROXYETHYLENE-BASED INHIBITORS BOUND TO HUMAN IMMUNODEFICIENCY VIRUS TYPE 1 PROTEASE SHOW THAT THE INHIBITORS ARE PRESENT IN TWO DISTINCT ORIENTATIONS | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HEG | THE CRYSTAL STRUCTURES AT 2.2 ANGSTROMS RESOLUTION OF HYDROXYETHYLENE-BASED INHIBITORS BOUND TO HUMAN IMMUNODEFICIENCY VIRUS TYPE 1 PROTEASE SHOW THAT THE INHIBITORS ARE PRESENT IN TWO DISTINCT ORIENTATIONS | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HEH | C-TERMINAL XYLAN BINDING DOMAIN FROM CELLULOMONAS FIMI XYLANASE 11A | 3.2.1.8 3.5.1 |
| 1HEI | STRUCTURE OF THE HEPATITIS C VIRUS RNA HELICASE DOMAIN | 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 2.7.7.48 |
| 1HEJ | C-TERMINAL XYLAN BINDING DOMAIN FROM CELLULOMONAS FIMI XYLANASE 11A | 3.2.1.8 3.5.1 |
| 1HEL | STRUCTURAL AND THERMODYNAMIC ANALYSIS OF COMPENSATING MUTATIONS WITHIN THE CORE OF CHICKEN EGG WHITE LYSOZYME | 3.2.1.17 |
| 1HEM | STRUCTURAL AND THERMODYNAMIC ANALYSIS OF COMPENSATING MUTATIONS WITHIN THE CORE OF CHICKEN EGG WHITE LYSOZYME | 3.2.1.17 |
| 1HEN | STRUCTURAL AND THERMODYNAMIC ANALYSIS OF COMPENSATING MUTATIONS WITHIN THE CORE OF CHICKEN EGG WHITE LYSOZYME | 3.2.1.17 |
| 1HEO | STRUCTURAL AND THERMODYNAMIC ANALYSIS OF COMPENSATING MUTATIONS WITHIN THE CORE OF CHICKEN EGG WHITE LYSOZYME | 3.2.1.17 |
| 1HEP | STRUCTURAL AND THERMODYNAMIC ANALYSIS OF COMPENSATING MUTATIONS WITHIN THE CORE OF CHICKEN EGG WHITE LYSOZYME | 3.2.1.17 |
| 1HEQ | STRUCTURAL AND THERMODYNAMIC ANALYSIS OF COMPENSATING MUTATIONS WITHIN THE CORE OF CHICKEN EGG WHITE LYSOZYME | 3.2.1.17 |
| 1HER | STRUCTURAL AND THERMODYNAMIC ANALYSIS OF COMPENSATING MUTATIONS WITHIN THE CORE OF CHICKEN EGG WHITE LYSOZYME | 3.2.1.17 |
| 1HEW | REFINEMENT OF AN ENZYME COMPLEX WITH INHIBITOR BOUND AT PARTIAL OCCUPANCY. HEN EGG-WHITE LYSOZYME AND TRI-N-ACETYLCHITOTRIOSE AT 1.75 ANGSTROMS RESOLUTION | 3.2.1.17 |
| 1HF4 | STRUCTURAL EFFECTS OF MONOVALENT ANIONS ON POLYMORPHIC LYSOZYME CRYSTALS | 3.2.1.17 |
| 1HF6 | ENDOGLUCANASE CEL5A FROM BACILLUS AGARADHAERENS IN THE ORTHORHOMBIC CRYSTAL FORM IN COMPLEX WITH CELLOTRIOSE | 3.2.1.4 |
| 1HFC | 1.56 ANGSTROM STRUCTURE OF MATURE TRUNCATED HUMAN FIBROBLAST COLLAGENASE | 3.4.24.7 |
| 1HFD | HUMAN COMPLEMENT FACTOR D IN A P21 CRYSTAL FORM | 3.4.21.46 |
| 1HFJ | ASPARAGINASE FROM ERWINIA CHRYSANTHEMI, HEXAGONAL FORM WITH SULFATE | 3.5.1.1 |
| 1HFK | ASPARAGINASE FROM ERWINIA CHRYSANTHEMI, HEXAGONAL FORM WITH WEAK SULFATE | 3.5.1.1 |
| 1HFS | CRYSTAL STRUCTURE OF THE CATALYTIC DOMAIN OF HUMAN FIBROBLAST STROMELYSIN-1 INHIBITED WITH THE N-CARBOXY-ALKYL INHIBITOR L-764,004 | 3.4.24.17 |
| 1HFW | X-RAY STRUCTURE OF THE COMPLEX BETWEEN ERWINIA CHRYSANTHEMI L-ASPARAGINASE AND L-GLUTAMATE | 3.5.1.1 |
| 1HG0 | X-RAY STRUCTURE OF THE COMPLEX BETWEEN ERWINIA CHRYSANTHEMI L-ASPARAGINASE AND SUCCINIC ACID | 3.5.1.1 |
| 1HG1 | X-RAY STRUCTURE OF THE COMPLEX BETWEEN ERWINIA CHRYSANTHEMI L-ASPARAGINASE AND D-ASPARTATE | 3.5.1.1 |
| 1HG8 | ENDOPOLYGALACTURONASE FROM THE PHYTOPATHOGENIC FUNGUS FUSARIUM MONILIFORME | 3.2.1.15 |
| 1HGT | STRUCTURE OF THE HIRUGEN AND HIRULOG 1 COMPLEXES OF ALPHA-THROMBIN | 3.4.21.5 |
| 1HGW | CEL6A D175A MUTANT | 3.2.1.91 |
| 1HGY | CEL6A D221A MUTANT | 3.2.1.91 |
| 1HH1 | THE STRUCTURE OF HJC, A HOLLIDAY JUNCTION RESOLVING ENZYME FROM SULFOLOBUS SOLFATARICUS | 3.1.22.4 |
| 1HH4 | RAC1-RHOGDI COMPLEX INVOLVED IN NADPH OXIDASE ACTIVATION | 3.6.5.2 |
| 1HHL | THE THREE-DIMENSIONAL STRUCTURE OF PHEASANT AND GUINEA-FOWL EGG LYSOZYMES | 3.2.1.17 |
| 1HHP | THE THREE-DIMENSIONAL STRUCTURE OF THE ASPARTYL PROTEASE FROM THE HIV-1 ISOLATE BRU | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HI2 | EOSINOPHIL-DERIVED NEUROTOXIN (EDN) - SULPHATE COMPLEX | 3.1.27.5 4.6.1.18 |
| 1HI3 | EOSINOPHIL-DERIVED NEUROTOXIN (EDN) - ADENOSINE 2'-5'-DIPHOSPHATE COMPLEX | 3.1.27.5 4.6.1.18 |
| 1HI4 | EOSINOPHIL-DERIVED NEUROTOXIN (EDN) - ADENOSIEN-3'-5'-DIPHOSPHATE COMPLEX | 3.1.27.5 4.6.1.18 |
| 1HI5 | EOSINOPHIL-DERIVED NEUROTOXIN (EDN) - ADENOSINE-5'-DIPHOSPHATE COMPLEX | 3.1.27.5 4.6.1.18 |
| 1HI9 | ZN-DEPENDENT D-AMINOPEPTIDASE DPPA FROM BACILLUS SUBTILIS, A SELF-COMPARTMENTALIZING PROTEASE. | 3.4.11 |
| 1HIA | KALLIKREIN COMPLEXED WITH HIRUSTASIN | 3.4.21.35 |
| 1HIH | COMPARATIVE ANALYSIS OF THE X-RAY STRUCTURES OF HIV-1 AND HIV-2 PROTEASES IN COMPLEX WITH CGP 53820, A NOVEL PSEUDOSYMMETRIC INHIBITOR | 3.4.23 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HII | COMPARATIVE ANALYSIS OF THE X-RAY STRUCTURES OF HIV-1 AND HIV-2 PROTEASES IN COMPLEX WITH CGP 53820, A NOVEL PSEUDOSYMMETRIC INHIBITOR | 3.4.23 3.4.23.47 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HIV | CRYSTAL STRUCTURE OF A COMPLEX OF HIV-1 PROTEASE WITH A DIHYDROETHYLENE-CONTAINING INHIBITOR: COMPARISONS WITH MOLECULAR MODELING | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HIW | TRIMERIC HIV-1 MATRIX PROTEIN | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HIX | CRYSTALLOGRAPHIC ANALYSES OF FAMILY 11 ENDO-BETA-1,4-XYLANASE XYL1 FROM STREPTOMYCES SP. S38 | 3.2.1.8 |
| 1HIZ | XYLANASE T6 (XT6) FROM BACILLUS STEAROTHERMOPHILUS | 3.2.1.8 |
| 1HJ8 | 1.00 AA TRYPSIN FROM ATLANTIC SALMON | 3.4.21.4 |
| 1HJ9 | ATOMIC RESOLUTION STRUCTURES OF TRYPSIN PROVIDE INSIGHT INTO STRUCTURAL RADIATION DAMAGE | 3.4.21.4 |
| 1HJA | LYS 18 VARIANT OF TURKEY OVOMUCOID INHIBITOR THIRD DOMAIN COMPLEXED WITH ALPHA-CHYMOTRYPSIN | 3.4.21.1 |
| 1HJK | ALKALINE PHOSPHATASE MUTANT H331Q | 3.1.3.1 |
| 1HJO | ATPASE DOMAIN OF HUMAN HEAT SHOCK 70KDA PROTEIN 1 | 3.6.1.3 |
| 1HJP | HOLLIDAY JUNCTION BINDING PROTEIN RUVA FROM E. COLI | 3.6.4.12 |
| 1HJQ | STRUCTURE OF TWO FUNGAL BETA-1,4-GALACTANASES: SEARCHING FOR THE BASIS FOR TEMPERATURE AND PH OPTIMUM. | 3.2.1.89 |
| 1HJR | ATOMIC STRUCTURE OF THE RUVC RESOLVASE: A HOLLIDAY JUNCTION-SPECIFIC ENDONUCLEASE FROM E. COLI | 3.1.22.4 |
| 1HJS | STRUCTURE OF TWO FUNGAL BETA-1,4-GALACTANASES: SEARCHING FOR THE BASIS FOR TEMPERATURE AND PH OPTIMUM. | 3.2.1.89 |
| 1HJU | STRUCTURE OF TWO FUNGAL BETA-1,4-GALACTANASES: SEARCHING FOR THE BASIS FOR TEMPERATURE AND PH OPTIMUM. | 3.2.1.89 |
| 1HJZ | CRYSTAL STRUCTURE OF AF1521 PROTEIN CONTAINING A MACROH2A DOMAIN | 3.2.2 |
| 1HKI | CRYSTAL STRUCTURE OF HUMAN CHITINASE IN COMPLEX WITH GLUCOALLOSAMIDIN B | 3.2.1.14 |
| 1HKJ | CRYSTAL STRUCTURE OF HUMAN CHITINASE IN COMPLEX WITH METHYLALLOSAMIDIN | 3.2.1.14 |
| 1HKK | HIGH RESOULTION CRYSTAL STRUCTURE OF HUMAN CHITINASE IN COMPLEX WITH ALLOSAMIDIN | 3.2.1.14 |
| 1HKM | HIGH RESOLUTION CRYSTAL STRUCTURE OF HUMAN CHITINASE IN COMPLEX WITH DEMETHYLALLOSAMIDIN | 3.2.1.14 |
| 1HL8 | CRYSTAL STRUCTURE OF THERMOTOGA MARITIMA ALPHA-FUCOSIDASE | 3.2.1.51 |
| 1HL9 | CRYSTAL STRUCTURE OF THERMOTOGA MARITIMA ALPHA-FUCOSIDASE IN COMPLEX WITH A MECHANISM BASED INHIBITOR | 3.2.1.51 |
| 1HLG | CRYSTAL STRUCTURE OF HUMAN GASTRIC LIPASE | 3.1.1.3 |
| 1HLK | METALLO-BETA-LACTAMASE FROM BACTEROIDES FRAGILIS IN COMPLEX WITH A TRICYCLIC INHIBITOR | 3.5.2.6 |
| 1HLT | THE STRUCTURE OF A NONADECAPEPTIDE OF THE FIFTH EGF DOMAIN OF THROMBOMODULIN COMPLEXED WITH THROMBIN | 3.4.21.5 |
| 1HN4 | PROPHOSPHOLIPASE A2 DIMER COMPLEXED WITH MJ33, SULFATE, AND CALCIUM | 3.1.1.4 |
| 1HNE | STRUCTURE OF HUMAN NEUTROPHIL ELASTASE IN COMPLEX WITH A PEPTIDE CHLOROMETHYL KETONE INHIBITOR AT 1.84-ANGSTROMS RESOLUTION | 3.4.21.37 |
| 1HNI | STRUCTURE OF HIV-1 REVERSE TRANSCRIPTASE IN A COMPLEX WITH THE NONNUCLEOSIDE INHIBITOR ALPHA-APA R 95845 AT 2.8 ANGSTROMS RESOLUTION | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HNL | CRYSTAL STRUCTURE OF A GLUTATHIONYLATED HUMAN LYSOZYME: A FOLDING INTERMEDIATE MIMIC IN THE FORMATION OF A DISULFIDE BOND | 3.2.1.17 |
| 1HNV | STRUCTURE OF HIV-1 RT(SLASH)TIBO R 86183 COMPLEX REVEALS SIMILARITY IN THE BINDING OF DIVERSE NONNUCLEOSIDE INHIBITORS | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HNY | THE STRUCTURE OF HUMAN PANCREATIC ALPHA-AMYLASE AT 1.8 ANGSTROMS RESOLUTION AND COMPARISONS WITH RELATED ENZYMES | 3.2.1.1 |
| 1HO3 | CRYSTAL STRUCTURE ANALYSIS OF E. COLI L-ASPARAGINASE II (Y25F MUTANT) | 3.5.1.1 |
| 1HO5 | 5'-NUCLEOTIDASE (E. COLI) IN COMPLEX WITH ADENOSINE AND PHOSPHATE | 3.1.3.5 3.6.1.45 |
| 1HOR | STRUCTURE AND CATALYTIC MECHANISM OF GLUCOSAMINE 6-PHOSPHATE DEAMINASE FROM ESCHERICHIA COLI AT 2.1 ANGSTROMS RESOLUTION | 3.5.99.6 |
| 1HOS | INHIBITION OF HUMAN IMMUNODEFICIENCY VIRUS-1 PROTEASE BY A C2-SYMMETRIC PHOSPHINATE SYNTHESIS AND CRYSTALLOGRAPHIC ANALYSIS | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HOT | GLUCOSAMINE 6-PHOSPHATE DEAMINASE COMPLEXED WITH THE ALLOSTERIC ACTIVATOR N-ACETYL-GLUCOSAMINE-6-PHOSPHATE | 3.5.99.6 |
| 1HOV | SOLUTION STRUCTURE OF A CATALYTIC DOMAIN OF MMP-2 COMPLEXED WITH SC-74020 | 3.4.24.24 |
| 1HOZ | CRYSTAL STRUCTURE OF AN INOSINE-ADENOSINE-GUANOSINE-PREFERRING NUCLEOSIDE HYDROLASE FROM TRYPANOSOMA VIVAX | 3.2.2.1 |
| 1HP0 | CRYSTAL STRUCTURE OF AN INOSINE-ADENOSINE-GUANOSINE-PREFERRING NUCLEOSIDE HYDROLASE FROM TRYPANOSOMA VIVAX IN COMPLEX WITH THE SUBSTRATE ANALOGUE 3-DEAZA-ADENOSINE | 3.2.2.1 |
| 1HP1 | 5'-NUCLEOTIDASE (OPEN FORM) COMPLEX WITH ATP | 3.1.3.5 3.6.1.45 |
| 1HP4 | CRYSTAL STRUCTURE OF STREPTOMYCES PLICATUS BETA-N-ACETYLHEXOSAMINIDASE | 3.2.1.52 |
| 1HP5 | STREPTOMYCES PLICATUS BETA-N-ACETYLHEXOSAMINIDASE COMPLEXED WITH INTERMEDIATE ANALOUGE NAG-THIAZOLINE | 3.2.1.52 |
| 1HPG | A GLUTAMIC ACID SPECIFIC SERINE PROTEASE UTILIZES A NOVEL HISTIDINE TRIAD IN SUBSTRATE BINDING | 3.4.21.82 |
| 1HPJ | SOLUTION NMR STRUCTURE OF THE HUMAN PLASMINOGEN KRINGLE 1 DOMAIN COMPLEXED WITH 6-AMINOHEXANOIC ACID AT PH 5.3, 310K, DERIVED FROM RANDOMLY GENERATED STRUCTURES USING SIMULATED ANNEALING, 12 STRUCTURES | 3.4.21.7 |
| 1HPK | SOLUTION NMR STRUCTURE OF THE HUMAN PLASMINOGEN KRINGLE 1 DOMAIN COMPLEXED WITH 6-AMINOHEXANOIC ACID AT PH 5.3, 310K, DERIVED FROM RANDOMLY GENERATED STRUCTURES USING SIMULATED ANNEALING, MINIMIZED AVERAGE STRUCTURE | 3.4.21.7 |
| 1HPL | HORSE PANCREATIC LIPASE. THE CRYSTAL STRUCTURE AT 2.3 ANGSTROMS RESOLUTION | 3.1.1.3 |
| 1HPM | HOW POTASSIUM AFFECTS THE ACTIVITY OF THE MOLECULAR CHAPERONE HSC70. II. POTASSIUM BINDS SPECIFICALLY IN THE ATPASE ACTIVE SITE | 3.6.1.3 |
| 1HPO | HIV-1 PROTEASE TRIPLE MUTANT/U103265 COMPLEX | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HPS | RATIONAL DESIGN, SYNTHESIS AND CRYSTALLOGRAPHIC ANALYSIS OF A HYDROXYETHYLENE-BASED HIV-1 PROTEASE INHIBITOR CONTAINING A HETEROCYCLIC P1'-P2' AMIDE BOND ISOSTERE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HPU | 5'-NUCLEOTIDASE (CLOSED FORM), COMPLEX WITH AMPCP | 3.1.3.5 3.6.1.45 |
| 1HPV | CRYSTAL STRUCTURE OF HIV-1 PROTEASE IN COMPLEX WITH VX-478, A POTENT AND ORALLY BIOAVAILABLE INHIBITOR OF THE ENZYME | 3.4.23 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HPX | HIV-1 PROTEASE COMPLEXED WITH THE INHIBITOR KNI-272 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HPZ | HUMAN IMMUNODEFICIENCY VIRUS TYPE 1 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HQ5 | CRYSTAL STRUCTURE OF THE BINUCLEAR MANGANESE METALLOENZYME ARGINASE COMPLEXED WITH S-(2-BORONOETHYL)-L-CYSTEINE, AN L-ARGININE ANALOGUE | 3.5.3.1 |
| 1HQA | ALKALINE PHOSPHATASE (H412Q) | 3.1.3.1 |
| 1HQC | STRUCTURE OF RUVB FROM THERMUS THERMOPHILUS HB8 | 3.6.1.3 3.6.4.12 |
| 1HQD | PSEUDOMONAS CEPACIA LIPASE COMPLEXED WITH TRANSITION STATE ANALOGUE OF 1-PHENOXY-2-ACETOXY BUTANE | 3.1.1.3 |
| 1HQE | HUMAN IMMUNODEFICIENCY VIRUS TYPE 1 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HQF | CRYSTAL STRUCTURE OF THE BINUCLEAR MANGANESE METALLOENZYME ARGINASE COMPLEXED WITH N-HYDROXY-L-ARGININE | 3.5.3.1 |
| 1HQG | CRYSTAL STRUCTURE OF THE H141C ARGINASE VARIANT COMPLEXED WITH PRODUCTS ORNITHINE AND UREA | 3.5.3.1 |
| 1HQH | CRYSTAL STRUCTURE OF THE BINUCLEAR MANGANESE METALLOENZYME ARGINASE COMPLEXED WITH NOR-N-HYDROXY-L-ARGININE | 3.5.3.1 |
| 1HQU | HUMAN IMMUNODEFICIENCY VIRUS TYPE 1 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HQX | R308K ARGINASE VARIANT | 3.5.3.1 |
| 1HQY | NUCLEOTIDE-DEPENDENT CONFORMATIONAL CHANGES IN A PROTEASE-ASSOCIATED ATPASE HSLU | 3.4.25.2 |
| 1HRH | CRYSTAL STRUCTURE OF THE RIBONUCLEASE H DOMAIN OF HIV-1 REVERSE TRANSCRIPTASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HRI | STRUCTURE DETERMINATION OF ANTIVIRAL COMPOUND SCH 38057 COMPLEXED WITH HUMAN RHINOVIRUS 14 | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1HRN | HIGH RESOLUTION CRYSTAL STRUCTURES OF RECOMBINANT HUMAN RENIN IN COMPLEX WITH POLYHYDROXYMONOAMIDE INHIBITORS | 3.4.23.15 |
| 1HRT | THE STRUCTURE OF A COMPLEX OF BOVINE ALPHA-THROMBIN AND RECOMBINANT HIRUDIN AT 2.8 ANGSTROMS RESOLUTION | 3.4.21.5 |
| 1HRV | HRV14/SDZ 35-682 COMPLEX | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1HS6 | STRUCTURE OF LEUKOTRIENE A4 HYDROLASE COMPLEXED WITH BESTATIN. | 3.3.2.6 3.4.11.4 |
| 1HSE | H253M N TERMINAL LOBE OF HUMAN LACTOFERRIN | 3.4.21 |
| 1HSG | CRYSTAL STRUCTURE AT 1.9 ANGSTROMS RESOLUTION OF HUMAN IMMUNODEFICIENCY VIRUS (HIV) II PROTEASE COMPLEXED WITH L-735,524, AN ORALLY BIOAVAILABLE INHIBITOR OF THE HIV PROTEASES | 3.4.23 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HSH | CRYSTAL STRUCTURE AT 1.9 ANGSTROMS RESOLUTION OF HUMAN IMMUNODEFICIENCY VIRUS (HIV) II PROTEASE COMPLEXED WITH L-735,524, AN ORALLY BIOAVAILABLE INHIBITOR OF THE HIV PROTEASES | 3.4.23 3.4.23.47 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HSI | CRYSTAL STRUCTURE AT 1.9 ANGSTROMS RESOLUTION OF HUMAN IMMUNODEFICIENCY VIRUS (HIV) II PROTEASE COMPLEXED WITH L-735,524, AN ORALLY BIOAVAILABLE INHIBITOR OF THE HIV PROTEASES | 3.4.23 3.4.23.47 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HSQ | SOLUTION STRUCTURE OF THE SH3 DOMAIN OF PHOSPHOLIPASE CGAMMA | 3.1.4.11 |
| 1HSW | LYSOZYME (MUCOPEPTIDE N-ACETYLMURAMYL HYDROLASE) | 3.2.1.17 |
| 1HSX | LYSOZYME GROWN AT BASIC PH AND ITS LOW HUMIDITY VARIANT | 3.2.1.17 |
| 1HT3 | MERCURY INDUCED MODIFICATIONS IN THE STEREOCHEMISTRY OF THE ACTIVE SITE THROUGH CYS-73 IN A SERINE PROTEASE: CRYSTAL STRUCTURE OF THE COMPLEX OF A PARTIALLY MODIFIED PROTEINASE K WITH MERCURY AT 1.8 A RESOLUTION | 3.4.21.64 |
| 1HT6 | CRYSTAL STRUCTURE AT 1.5A RESOLUTION OF THE BARLEY ALPHA-AMYLASE ISOZYME 1 | 3.2.1.1 |
| 1HTD | STRUCTURAL INTERACTION OF NATURAL AND SYNTHETIC INHIBITORS WITH THE VENOM METALLOPROTEINASE, ATROLYSIN C (HT-D) | 3.4.24.42 |
| 1HTE | X-RAY CRYSTALLOGRAPHIC STUDIES OF A SERIES OF PENICILLIN-DERIVED ASYMMETRIC INHIBITORS OF HIV-1 PROTEASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HTF | X-RAY CRYSTALLOGRAPHIC STUDIES OF A SERIES OF PENICILLIN-DERIVED ASYMMETRIC INHIBITORS OF HIV-1 PROTEASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HTG | X-RAY CRYSTALLOGRAPHIC STUDIES OF A SERIES OF PENICILLIN-DERIVED ASYMMETRIC INHIBITORS OF HIV-1 PROTEASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HTR | CRYSTAL AND MOLECULAR STRUCTURES OF HUMAN PROGASTRICSIN AT 1.62 ANGSTROMS RESOLUTION | 3.4.23.3 |
| 1HTY | GOLGI ALPHA-MANNOSIDASE II | 3.2.1.114 |
| 1HTZ | CRYSTAL STRUCTURE OF TEM52 BETA-LACTAMASE | 3.5.2.6 |
| 1HU0 | CRYSTAL STRUCTURE OF AN HOGG1-DNA BOROHYDRIDE TRAPPED INTERMEDIATE COMPLEX | 3.2.2 4.2.99.18 |
| 1HUC | THE REFINED 2.15 ANGSTROMS X-RAY CRYSTAL STRUCTURE OF HUMAN LIVER CATHEPSIN B: THE STRUCTURAL BASIS FOR ITS SPECIFICITY | 3.4.22.1 |
| 1HUF | CRYSTAL STRUCTURE OF THE N-TERMINAL DOMAIN OF THE TYROSINE PHOSPHATASE YOPH FROM YERSINIA PESTIS. | 3.1.3.48 |
| 1HUJ | REFINED STRUCTURE OF YEAST INORGANIC PYROPHOSPHATASE AND ITS K61R MUTANT | 3.6.1.1 |
| 1HUK | REFINED STRUCTURE OF YEAST INORGANIC PYROPHOSPHATASE AND ITS K61R MUTANT | 3.6.1.1 |
| 1HUX | CRYSTAL STRUCTURE OF THE ACIDAMINOCOCCUS FERMENTANS (R)-2-HYDROXYGLUTARYL-COA DEHYDRATASE COMPONENT A | 3.6.1 |
| 1HV0 | DISSECTING ELECTROSTATIC INTERACTIONS AND THE PH-DEPENDENT ACTIVITY OF A FAMILY 11 GLYCOSIDASE | 3.2.1.8 |
| 1HV1 | DISSECTING ELECTROSTATIC INTERACTIONS AND THE PH-DEPENDENT ACTIVITY OF A FAMILY 11 GLYCOSIDASE | 3.2.1.8 |
| 1HV5 | CRYSTAL STRUCTURE OF THE STROMELYSIN-3 (MMP-11) CATALYTIC DOMAIN COMPLEXED WITH A PHOSPHINIC INHIBITOR | 3.4.24 |
| 1HV7 | PORCINE PANCREATIC ELASTASE COMPLEXED WITH GW311616A | 3.4.21.36 |
| 1HV8 | CRYSTAL STRUCTURE OF A DEAD BOX PROTEIN FROM THE HYPERTHERMOPHILE METHANOCOCCUS JANNASCHII | 3.6.4.13 |
| 1HVB | CRYSTAL STRUCTURE OF STREPTOMYCES R61 DD-PEPTIDASE COMPLEXED WITH A NOVEL CEPHALOSPORIN ANALOG OF CELL WALL PEPTIDOGLYCAN | 3.4.16.4 |
| 1HVH | NONPEPTIDE CYCLIC CYANOGUANIDINES AS HIV PROTEASE INHIBITORS | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HVJ | INFLUENCE OF STEREOCHEMISTRY ON ACTIVITY AND BINDING MODES FOR C2 SYMMETRY-BASED DIOL INHIBITORS OF HIV-1 PROTEASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HVK | INFLUENCE OF STEREOCHEMISTRY ON ACTIVITY AND BINDING MODES FOR C2 SYMMETRY-BASED DIOL INHIBITORS OF HIV-1 PROTEASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HVL | INFLUENCE OF STEREOCHEMISTRY ON ACTIVITY AND BINDING MODES FOR C2 SYMMETRY-BASED DIOL INHIBITORS OF HIV-1 PROTEASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HVQ | CRYSTAL STRUCTURES OF HEVAMINE, A PLANT DEFENCE PROTEIN WITH CHITINASE AND LYSOZYME ACTIVITY, AND ITS COMPLEX WITH AN INHIBITOR | 3.2.1.14 3.2.1.17 |
| 1HVR | RATIONAL DESIGN OF POTENT, BIOAVAILABLE, NONPEPTIDE CYCLIC UREAS AS HIV PROTEASE INHIBITORS | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HVS | STRUCTURAL BASIS OF DRUG RESISTANCE FOR THE V82A MUTANT OF HIV-1 PROTEASE: BACKBONE FLEXIBILITY AND SUBSITE REPACKING | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HVX | BACILLUS STEAROTHERMOPHILUS ALPHA-AMYLASE | 3.2.1.1 |
| 1HWM | EBULIN,ORTHORHOMBIC CRYSTAL FORM MODEL | 3.2.2.22 |
| 1HWN | EBULIN COMPLEXED WITH GALACTOSE, TRIGONAL CRYSTAL FORM | 3.2.2.22 |
| 1HWO | EBULIN COMPLEXED WITH LACTOSE, TRIGONAL CRYSTAL FORM | 3.2.2.22 |
| 1HWP | EBULIN COMPLEXED WITH PTEROIC ACID, TRIGONAL CRYSTAL FORM | 3.2.2.22 |
| 1HWR | MOLECULAR RECOGNITION OF CYCLIC UREA HIV PROTEASE INHIBITORS | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HWW | GOLGI ALPHA-MANNOSIDASE II IN COMPLEX WITH SWAINSONINE | 3.2.1.114 |
| 1HX0 | STRUCTURE OF PIG PANCREATIC ALPHA-AMYLASE COMPLEXED WITH THE TRUNCATE" ACARBOSE MOLECULE (PSEUDOTRISACCHARIDE)" | 3.2.1.1 |
| 1HXB | HIV-1 PROTEINASE COMPLEXED WITH RO 31-8959 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HXE | SERINE PROTEASE | 3.4.21.5 |
| 1HXF | HUMAN THROMBIN COMPLEX WITH HIRUDIN VARIANT | 3.4.21.5 |
| 1HXJ | CRYSTAL STRUCTURE OF THE MAIZE ZM-P60.1 BETA-GLUCOSIDASE | 3.2.1.21 3.2.1.182 |
| 1HXK | GOLGI ALPHA-MANNOSIDASE II IN COMPLEX WITH DEOXYMANNOJIRIMICIN | 3.2.1.114 |
| 1HXS | CRYSTAL STRUCTURE OF MAHONEY STRAIN OF POLIOVIRUS AT 2.2A RESOLUTION | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1HXW | HIV-1 PROTEASE DIMER COMPLEXED WITH A-84538 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HY7 | A CARBOXYLIC ACID BASED INHIBITOR IN COMPLEX WITH MMP3 | 3.4.24.17 |
| 1HYF | RIBONUCLEASE T1 V16A MUTANT IN COMPLEX WITH SR2+ | 3.1.27.3 4.6.1.24 |
| 1HYL | THE 1.8 A STRUCTURE OF COLLAGENASE FROM HYPODERMA LINEATUM | 3.4.21 3.4.21.49 |
| 1HYO | CRYSTAL STRUCTURE OF FUMARYLACETOACETATE HYDROLASE COMPLEXED WITH 4-(HYDROXYMETHYLPHOSPHINOYL)-3-OXO-BUTANOIC ACID | 3.7.1.2 |
| 1HYS | CRYSTAL STRUCTURE OF HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH A POLYPURINE TRACT RNA:DNA | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HYT | RE-DETERMINATION AND REFINEMENT OF THE COMPLEX OF BENZYLSUCCINIC ACID WITH THERMOLYSIN AND ITS RELATION TO THE COMPLEX WITH CARBOXYPEPTIDASE A | 3.4.24.27 |
| 1HYV | HIV INTEGRASE CORE DOMAIN COMPLEXED WITH TETRAPHENYL ARSONIUM | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HYZ | HIV INTEGRASE CORE DOMAIN COMPLEXED WITH A DERIVATIVE OF TETRAPHENYL ARSONIUM. | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1HZ1 | RIBONUCLEASE T1 V16A MUTANT IN COMPLEX WITH MG2+ | 3.1.27.3 4.6.1.24 |
| 1HZF | C4ADG FRAGMENT OF HUMAN COMPLEMENT FACTOR C4A | 3.4.21.43 |
| 1HZM | STRUCTURE OF ERK2 BINDING DOMAIN OF MAPK PHOSPHATASE MKP-3: STRUCTURAL INSIGHTS INTO MKP-3 ACTIVATION BY ERK2 | 3.1.3.48 3.1.3.16 |
| 1HZO | STRUCTURE OF CLASS A CEPHALOSPORINASE FROM PROTEUS VULGARIS K1 | 3.5.2.6 |
| 1HZY | HIGH RESOLUTION STRUCTURE OF THE ZINC-CONTAINING PHOSPHOTRIESTERASE FROM PSEUDOMONAS DIMINUTA | 3.1.8.1 |
| 1I0B | HIGH RESOLUTION STRUCTURE OF THE MANGANESE-CONTAINING PHOSPHOTRIESTERASE FROM PSEUDOMONAS DIMINUTA | 3.1.8.1 |
| 1I0D | HIGH RESOLUTION STRUCTURE OF THE ZINC/CADMIUM-CONTAINING PHOSPHOTRIESTERASE FROM PSEUDOMONAS DIMINUTA | 3.1.8.1 |
| 1I0V | RIBONUCLEASE T1 IN COMPLEX WITH 2'GMP (FORM I CRYSTAL) | 3.1.27.3 4.6.1.24 |
| 1I0X | RIBONUCLEASE T1 IN COMPLEX WITH 2'GMP (FORM II CRYSTAL) | 3.1.27.3 4.6.1.24 |
| 1I1E | CRYSTAL STRUCTURE OF CLOSTRIDIUM BOTULINUM NEUROTOXIN B COMPLEXED WITH DOXORUBICIN | 3.4.24.69 |
| 1I1I | NEUROLYSIN (ENDOPEPTIDASE 24.16) CRYSTAL STRUCTURE | 3.4.24.16 |
| 1I1W | 0.89A ULTRA HIGH RESOLUTION STRUCTURE OF A THERMOSTABLE XYLANASE FROM THERMOASCUS AURANTIACUS | 3.2.1.8 |
| 1I1X | 1.11 A ATOMIC RESOLUTION STRUCTURE OF A THERMOSTABLE XYLANASE FROM THERMOASCUS AURANTIACUS | 3.2.1.8 |
| 1I1Z | MUTANT HUMAN LYSOZYME (Q86D) | 3.2.2.17 3.2.1.17 |
| 1I20 | MUTANT HUMAN LYSOZYME (A92D) | 3.2.2.17 3.2.1.17 |
| 1I22 | MUTANT HUMAN LYSOZYME (A83K/Q86D/A92D) | 3.2.1.17 |
| 1I2E | RIBONUCLEASE T1 V16A MUTANT, FORM I | 3.1.27.3 4.6.1.24 |
| 1I2F | RIBONUCLEASE T1 V16A MUTANT, FORM II | 3.1.27.3 4.6.1.24 |
| 1I2G | RIBONUCLEASE T1 V16T MUTANT | 3.1.27.3 4.6.1.24 |
| 1I2S | BETA-LACTAMASE FROM BACILLUS LICHENIFORMIS BS3 | 3.5.2.6 |
| 1I2W | BETA-LACTAMASE FROM BACILLUS LICHENIFORMIS BS3 COMPLEXED WITH CEFOXITIN | 3.5.2.6 |
| 1I39 | RNASE HII FROM ARCHAEOGLOBUS FULGIDUS | 3.1.26.4 |
| 1I3A | RNASE HII FROM ARCHAEOGLOBUS FULGIDUS WITH COBALT HEXAMMINE CHLORIDE | 3.1.26.4 |
| 1I3F | RIBONUCLEASE T1 V89S MUTANT | 3.1.27.3 4.6.1.24 |
| 1I3I | RIBONUCLEASE T1 V78T MUTANT | 3.1.27.3 4.6.1.24 |
| 1I3J | CRYSTAL STRUCTURE OF THE DNA-BINDING DOMAIN OF INTRON ENDONUCLEASE I-TEVI WITH ITS SUBSTRATE | 3.1 |
| 1I3O | CRYSTAL STRUCTURE OF THE COMPLEX OF XIAP-BIR2 AND CASPASE 3 | 3.4.22 3.4.22.56 |
| 1I40 | STRUCTURE OF INORGANIC PYROPHOSPHATASE | 3.6.1.1 |
| 1I4O | CRYSTAL STRUCTURE OF THE XIAP/CASPASE-7 COMPLEX | 3.4.22 3.4.22.60 |
| 1I4S | CRYSTAL STRUCTURE OF RNASE III ENDONUCLEASE DOMAIN FROM AQUIFEX AEOLICUS AT 2.15 ANGSTROM RESOLUTION | 3.1.26.3 |
| 1I4V | SOLUTION STRUCTURE OF THE UMUD' HOMODIMER | 3.4.21 |
| 1I51 | CRYSTAL STRUCTURE OF CASPASE-7 COMPLEXED WITH XIAP | 3.4.22 3.4.22.60 |
| 1I56 | SOLUTION STRUCTURE OF CA2+-BOUND STATE OF CANINE MILK LYSOZYME | 3.2.1.17 |
| 1I57 | CRYSTAL STRUCTURE OF APO HUMAN PTP1B (C215S) MUTANT | 3.1.3.48 |
| 1I5K | STRUCTURE AND BINDING DETERMINANTS OF THE RECOMBINANT KRINGLE-2 DOMAIN OF HUMAN PLASMINOGEN TO AN INTERNAL PEPTIDE FROM A GROUP A STREPTOCOCCAL SURFACE PROTEIN | 3.4.21.7 |
| 1I5Q | CRYSTAL STRUCTURE OF THE E. COLI AMPC BETA-LACTAMASE MUTANT N152A COVALENTLY ACYLATED WITH THE INHIBITORY BETA-LACTAM, MOXALACTAM | 3.5.2.6 |
| 1I6B | STRUCTURE OF EQUINE APOLACTOFERRIN AT 3.2 A RESOLUTION USING CRYSTALS GROWN AT 303K | 3.4.21 |
| 1I6J | CRYSTAL STRUCTURE OF A PSEUDO-16-MER DNA WITH STACKED GUANINES AND TWO G-A MISPAIRS COMPLEXED WITH THE N-TERMINAL FRAGMENT OF MOLONEY MURINE LEUKEMIA VIRUS REVERSE TRANSCRIPTASE | 2.7.7.49 3.4.23 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1I6Q | FORMATION OF A PROTEIN INTERMEDIATE AND ITS TRAPPING BY THE SIMULTANEOUS CRYSTALLIZATION PROCESS: CRYSTAL STRUCTURE OF AN IRON-SATURATED INTERMEDIATE IN THE FE3+ BINDING PATHWAY OF CAMEL LACTOFERRIN AT 2.7 RESOLUTION | 3.4.21 |
| 1I6S | T4 LYSOZYME MUTANT C54T/C97A/N101A | 3.2.1.17 |
| 1I6T | STRUCTURE OF INORGANIC PYROPHOSPHATASE | 3.6.1.1 |
| 1I6W | THE CRYSTAL STRUCTURE OF BACILLUS SUBTILIS LIPASE: A MINIMAL ALPHA/BETA HYDROLASE ENZYME | 3.1.1.3 |
| 1I70 | CRYSTAL STRUCTURE OF RNASE SA Y86F MUTANT | 3.1.27.3 4.6.1.24 |
| 1I71 | HIGH RESOLUTION CRYSTAL STRUCTURE OF APOLIPOPROTEIN(A) KRINGLE IV TYPE 7: INSIGHTS INTO LIGAND BINDING | 3.4.21 |
| 1I73 | COMPLEX OF PRO-LEU-L-TRP PHOSPHONATE WITH THE CATALITIC DOMAIN OF MATRIX METALLO PROTEINASE-8 (MET80 FORM) | 3.4.24.34 |
| 1I74 | STREPTOCOCCUS MUTANS INORGANIC PYROPHOSPHATASE | 3.6.1.1 |
| 1I76 | COMPLEX OF 2-(BIPHENYL-4-SULFONYL)-1,2,3,4-TETRAHYDRO-ISOQUINOLINE-3-CARBOXYLIC ACID (D-TIC DERIVATIVE) WITH T CATALITIC DOMAIN OF MATRIX METALLO PROTEINASE-8 (MET80 FORM) | 3.4.24.34 |
| 1I78 | CRYSTAL STRUCTURE OF OUTER MEMBRANE PROTEASE OMPT FROM ESCHERICHIA COLI | 3.4.21.87 3.4.23.49 |
| 1I82 | FAMILY 9 CARBOHYDRATE-BINDING MODULE FROM THERMOTOGA MARITIMA XYLANASE 10A WITH CELLOBIOSE | 3.2.1.8 |
| 1I8A | FAMILY 9 CARBOHYDRATE-BINDING MODULE FROM THERMOTOGA MARITIMA XYLANASE 10A WITH GLUCOSE | 3.2.1.8 |
| 1I8G | SOLUTION STRUCTURE OF PIN1 WW DOMAIN COMPLEXED WITH CDC25 PHOSPHOTHREONINE PEPTIDE | 3.1.3.48 |
| 1I8U | FAMILY 9 CARBOHYDRATE-BINDING MODULE FROM THERMOTOGA MARITIMA XYLANASE 10A | 3.2.1.8 |
| 1I8V | CRYSTAL STRUCTURE OF RNASE SA Y80F MUTANT | 3.1.27.3 4.6.1.24 |
| 1I9S | CRYSTAL STRUCTURE OF THE RNA TRIPHOSPHATASE DOMAIN OF MOUSE MRNA CAPPING ENZYME | 3.1.3.33 2.7.7.50 |
| 1I9T | CRYSTAL STRUCTURE OF THE OXIDIZED RNA TRIPHOSPHATASE DOMAIN OF MOUSE MRNA CAPPING ENZYME | 3.1.3.33 2.7.7.50 |
| 1I9Y | CRYSTAL STRUCTURE OF INOSITOL POLYPHOSPHATE 5-PHOSPHATASE DOMAIN (IPP5C) OF SPSYNAPTOJANIN | 3.1.3.36 |
| 1I9Z | CRYSTAL STRUCTURE OF INOSITOL POLYPHOSPHATE 5-PHOSPHATASE DOMAIN (IPP5C) OF SPSYNAPTOJANIN IN COMPLEX WITH INOSITOL (1,4)-BISPHOSPHATE AND CALCIUM ION | 3.1.3.36 |
| 1IA5 | POLYGALACTURONASE FROM ASPERGILLUS ACULEATUS | 3.2.1.15 |
| 1IA6 | CRYSTAL STRUCTURE OF THE CELLULASE CEL9M OF C. CELLULOLYTICUM | 3.2.1.4 3.2.1 |
| 1IA7 | CRYSTAL STRUCTURE OF THE CELLULASE CEL9M OF C. CELLULOLYTICIUM IN COMPLEX WITH CELLOBIOSE | 3.2.1.4 3.2.1 |
| 1IAA | CRYSTAL STRUCTURES, SPECTROSCOPIC FEATURES, AND CATALYTIC PROPERTIES OF COBALT(II), COPPER(II), NICKEL(II), AND MERCURY(II) DERIVATIVES OF THE ZINC ENDOPEPTIDASE ASTACIN. A CORRELATION OF STRUCTURE AND PROTEOLYTIC ACTIVITY | 3.4.24.21 |
| 1IAB | CRYSTAL STRUCTURES, SPECTROSCOPIC FEATURES, AND CATALYTIC PROPERTIES OF COBALT(II), COPPER(II), NICKEL(II), AND MERCURY(II) DERIVATIVES OF THE ZINC ENDOPEPTIDASE ASTACIN. A CORRELATION OF STRUCTURE AND PROTEOLYTIC ACTIVITY | 3.4.24.21 |
| 1IAC | REFINED 1.8 ANGSTROMS X-RAY CRYSTAL STRUCTURE OF ASTACIN, A ZINC-ENDOPEPTIDASE FROM THE CRAYFISH ASTACUS ASTACUS L. STRUCTURE DETERMINATION, REFINEMENT, MOLECULAR STRUCTURE AND COMPARISON WITH THERMOLYSIN | 3.4.24.21 |
| 1IAD | REFINED 1.8 ANGSTROMS X-RAY CRYSTAL STRUCTURE OF ASTACIN, A ZINC-ENDOPEPTIDASE FROM THE CRAYFISH ASTACUS ASTACUS L. STRUCTURE DETERMINATION, REFINEMENT, MOLECULAR STRUCTURE AND COMPARISON TO THERMOLYSIN | 3.4.24.21 |
| 1IAE | CRYSTAL STRUCTURES, SPECTROSCOPIC FEATURES, AND CATALYTIC PROPERTIES OF COBALT(II), COPPER(II), NICKEL(II), AND MERCURY(II) DERIVATIVES OF THE ZINC ENDOPEPTIDASE ASTACIN. A CORRELATION OF STRUCTURE AND PROTEOLYTIC ACTIVITY | 3.4.24.21 |
| 1IAG | FIRST STRUCTURE OF A SNAKE VENOM METALLOPROTEINASE: A PROTOTYPE FOR MATRIX METALLOPROTEINASES(SLASH)COLLAGENASES | 3.4.24.46 |
| 1IAQ | C-H-RAS P21 PROTEIN MUTANT WITH THR 35 REPLACED BY SER (T35S) COMPLEXED WITH GUANOSINE-5'-[B,G-IMIDO] TRIPHOSPHATE | 3.6.5.2 |
| 1IAU | HUMAN GRANZYME B IN COMPLEX WITH AC-IEPD-CHO | 3.4.21.79 |
| 1IAV | STRUCTURE ON NATIVE (ASN 87) SUBTILISIN FROM BACILLUS LENTUS | 3.4.21.62 |
| 1IAW | CRYSTAL STRUCTURE OF NAEI COMPLEXED WITH 17MER DNA | 3.1.21.4 |
| 1IB4 | CRYSTAL STRUCTURE OF POLYGALACTURONASE FROM ASPERGILLUS ACULEATUS AT PH4.5 | 3.2.1.15 |
| 1IBC | CRYSTAL STRUCTURE OF INHIBITED INTERLEUKIN-1BETA CONVERTING ENZYME | 3.4.22.36 |
| 1IBQ | ASPERGILLOPEPSIN FROM ASPERGILLUS PHOENICIS | 3.4.23.18 |
| 1IBX | NMR STRUCTURE OF DFF40 AND DFF45 N-TERMINAL DOMAIN COMPLEX | 3 |
| 1IC6 | STRUCTURE OF A SERINE PROTEASE PROTEINASE K FROM TRITIRACHIUM ALBUM LIMBER AT 0.98 A RESOLUTION | 3.4.21.64 |
| 1ICE | STRUCTURE AND MECHANISM OF INTERLEUKIN-1BETA CONVERTING ENZYME | 3.4.22.36 |
| 1ICF | CRYSTAL STRUCTURE OF MHC CLASS II ASSOCIATED P41 II FRAGMENT IN COMPLEX WITH CATHEPSIN L | 3.4.22.15 |
| 1ICJ | PDF PROTEIN IS CRYSTALLIZED AS NI2+ CONTAINING FORM, COCRYSTALLIZED WITH INHIBITOR POLYETHYLENE GLYCOL (PEG) | 3.5.1.31 3.5.1.88 |
| 1ICX | CRYSTAL STRUCTURE OF PATHOGENESIS-RELATED PROTEIN LLPR10.1A FROM YELLOW LUPINE | 3.1.27 |
| 1ID0 | CRYSTAL STRUCTURE OF THE NUCLEOTIDE BOND CONFORMATION OF PHOQ KINASE DOMAIN | 2.7.1.37 2.7.13.3 3.1.3 |
| 1ID4 | CRYSTAL STRUCTURE OF THE CATALYTIC SITE MUTANT (H157Q) OF THE HUMAN CYTOMEGALOVIRUS PROTEASE | 3.4.21.97 |
| 1ID5 | CRYSTAL STRUCTURE OF BOVINE THROMBIN COMPLEX WITH PROTEASE INHIBITOR ECOTIN | 3.4.21.5 |
| 1IDA | CRYSTAL STRUCTURES OF HIV-2 PROTEASE IN COMPLEX WITH INHIBITORS CONTAINING THE HYDROXYETHYLAMINE DIPEPTIDE ISOSTERE | 3.4.23.47 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1IDB | CRYSTAL STRUCTURES OF HIV-2 PROTEASE IN COMPLEX WITH INHIBITORS CONTAINING THE HYDROXYETHYLAMINE DIPEPTIDE ISOSTERE | 3.4.23.47 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1IE7 | PHOSPHATE INHIBITED BACILLUS PASTEURII UREASE CRYSTAL STRUCTURE | 3.5.1.5 |
| 1IEC | CRYSTAL STRUCTURE OF THE CATALYTIC SITE MUTANT (H157A) OF THE HUMAN CYTOMEGALOVIRUS PROTEASE | 3.4.21.97 |
| 1IED | CRYSTAL STRUCTURE OF THE CATALYTIC SITE MUTANT (H157E) OF THE HUMAN CYTOMEGALOVIRUS PROTEASE | 3.4.21.97 |
| 1IEE | STRUCTURE OF TETRAGONAL HEN EGG WHITE LYSOZYME AT 0.94 A FROM CRYSTALS GROWN BY THE COUNTER-DIFFUSION METHOD | 3.2.1.17 |
| 1IEF | CRYSTAL STRUCTURE OF THE CATALYTIC SITE MUTANT S134A OF THE HUMAN CYTOMEGALOVIRUS PROTEASE | 3.4.21.97 |
| 1IEG | CRYSTAL STRUCTURE OF THE CATALYTIC SITE MUTANT S134A/H157A OF THE HUMAN CYTOMEGALOVIRUS PROTEASE | 3.4.21.97 |
| 1IEL | CRYSTAL STRUCTURE OF AMPC BETA-LACTAMASE FROM E. COLI IN COMPLEX WITH CEFTAZIDIME | 3.5.2.6 |
| 1IEM | CRYSTAL STRUCTURE OF AMPC BETA-LACTAMASE FROM E. COLI IN COMPLEX WITH A BORONIC ACID INHIBITOR (1, CEFB4) | 3.5.2.6 |
| 1IEQ | CRYSTAL STRUCTURE OF BARLEY BETA-D-GLUCAN GLUCOHYDROLASE ISOENZYME EXO1 | 3.2.1.58 |
| 1IEV | CRYSTAL STRUCTURE OF BARLEY BETA-D-GLUCAN GLUCOHYDROLASE ISOENZYME EXO1 IN COMPLEX WITH CYCLOHEXITOL | 3.2.1.58 |
| 1IEW | CRYSTAL STRUCTURE OF BARLEY BETA-D-GLUCAN GLUCOHYDROLASE ISOENZYME EXO1 IN COMPLEX WITH 2-DEOXY-2-FLUORO-ALPHA-D-GLUCOSIDE | 3.2.1.58 |
| 1IEX | CRYSTAL STRUCTURE OF BARLEY BETA-D-GLUCAN GLUCOHYDROLASE ISOENZYME EXO1 IN COMPLEX WITH 4I,4III,4V-S-TRITHIOCELLOHEXAOSE | 3.2.1.58 |
| 1IFS | RICIN A-CHAIN (RECOMBINANT) COMPLEX WITH ADENOSINE (ADENOSINE BECOMES ADENINE IN THE COMPLEX) | 3.2.2.22 |
| 1IFT | RICIN A-CHAIN (RECOMBINANT) | 3.2.2.22 |
| 1IFU | RICIN A-CHAIN (RECOMBINANT) COMPLEX WITH FORMYCIN | 3.2.2.22 |
| 1IFV | CRYSTAL STRUCTURE OF PATHOGENESIS-RELATED PROTEIN LLPR10.1B FROM YELLOW LUPINE | 3.1.27 |
| 1IG9 | STRUCTURE OF THE REPLICATING COMPLEX OF A POL ALPHA FAMILY DNA POLYMERASE | 2.7.7.7 3.1.11 |
| 1IGB | AEROMONAS PROTEOLYTICA AMINOPEPTIDASE COMPLEXED WITH THE INHIBITOR PARA-IODO-D-PHENYLALANINE HYDROXAMATE | 3.4.11.10 |
| 1IGO | FAMILY 11 XYLANASE | 3.2.1.8 |
| 1IGP | X-RAY CRYSTALLOGRAPHIC STUDIES OF RECOMBINANT INORGANIC PYROPHOSPHATASE FROM ESCHERICHIA COLI | 3.6.1.1 |
| 1IH7 | HIGH-RESOLUTION STRUCTURE OF APO RB69 DNA POLYMERASE | 2.7.7.7 3.1.11 |
| 1IHD | CRYSTAL STRUCTURE OF TRIGONAL FORM OF D90E MUTANT OF ESCHERICHIA COLI ASPARAGINASE II | 3.5.1.1 |
| 1IHP | STRUCTURE OF PHOSPHOMONOESTERASE | 3.1.3.8 |
| 1IHS | CRYSTAL STRUCTURE OF THE COMPLEX OF HUMAN ALPHA-THROMBIN AND NON-HYDROLYZABLE BIFUNCTIONAL INHIBITORS, HIRUTONIN-2 AND HIRUTONIN-6 | 3.4.21.5 |
| 1IHT | CRYSTAL STRUCTURE OF THE COMPLEX OF HUMAN ALPHA-THROMBIN AND NON-HYDROLYZABLE BIFUNCTIONAL INHIBITORS, HIRUTONIN-2 AND HIRUTONIN-6 | 3.4.21.5 |
| 1IHU | CRYSTAL STRUCTURE OF THE ESCHERICHIA COLI ARSENITE-TRANSLOCATING ATPASE IN COMPLEX WITH MG-ADP-ALF3 | 3.6.3.16 7.3.2.7 |
| 1IHV | SOLUTION STRUCTURE OF THE DNA BINDING DOMAIN OF HIV-1 INTEGRASE, NMR, MINIMIZED AVERAGE STRUCTURE | 2.7.7 3.1 |
| 1IHW | SOLUTION STRUCTURE OF THE DNA BINDING DOMAIN OF HIV-1 INTEGRASE, NMR, 40 STRUCTURES | 2.7.7 3.1 |
| 1IHZ | STRUCTURE OF S. NUCLEASE MUTANT QUINTUPLE MUTANT V23L/V66L/I72L/I92L/V99L | 3.1.31.1 |
| 1II0 | CRYSTAL STRUCTURE OF THE ESCHERICHIA COLI ARSENITE-TRANSLOCATING ATPASE | 3.6.3.16 7.3.2.7 |
| 1II3 | STRUCTURE OF S. NUCLEASE QUINTUPLE MUTANT V23I/V66L/I72L/I92L/V99L | 3.1.31.1 |
| 1II7 | CRYSTAL STRUCTURE OF P. FURIOSUS MRE11 WITH MANGANESE AND DAMP | 3.1 |
| 1II9 | CRYSTAL STRUCTURE OF THE ESCHERICHIA COLI ARSENITE-TRANSLOCATING ATPASE IN COMPLEX WITH AMP-PNP | 3.6.3.16 7.3.2.7 |
| 1IIQ | CRYSTAL STRUCTURE OF HIV-1 PROTEASE COMPLEXED WITH A HYDROXYETHYLAMINE PEPTIDOMIMETIC INHIBITOR | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1IIZ | CRYSTAL STRUCTURE OF THE INDUCED ANTIBACTERIAL PROTEIN FROM TASAR SILKWORM, ANTHERAEA MYLITTA | 3.2.1.17 |
| 1IJL | CRYSTAL STRUCTURE OF ACIDIC PHOSPHOLIPASE A2 FROM DEINAGKISTRODON ACUTUS | 3.1.1.4 |
| 1IKG | MICHAELIS COMPLEX OF STREPTOMYCES R61 DD-PEPTIDASE WITH A SPECIFIC PEPTIDOGLYCAN SUBSTRATE FRAGMENT | 3.4.16.4 |
| 1IKI | COMPLEX OF STREPTOMYCES R61 DD-PEPTIDASE WITH THE PRODUCTS OF A SPECIFIC PEPTIDOGLYCAN SUBSTRATE FRAGMENT | 3.4.16.4 |
| 1IKV | K103N MUTANT HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH EFIVARENZ | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1IKW | WILD TYPE HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH EFAVIRENZ | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1IKX | K103N MUTANT HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH THE INHIBITOR PNU142721 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1IKY | HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH THE INHIBITOR MSC194 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1IL3 | STRUCTURE OF RICIN A CHAIN BOUND WITH INHIBITOR 7-DEAZAGUANINE | 3.2.2.22 |
| 1IL4 | STRUCTURE OF RICIN A CHAIN BOUND WITH INHIBITOR 9-DEAZAGUANINE | 3.2.2.22 |
| 1IL5 | STRUCTURE OF RICIN A CHAIN BOUND WITH INHIBITOR 2,5-DIAMINO-4,6-DIHYDROXYPYRIMIDINE (DDP) | 3.2.2.22 |
| 1IL9 | STRUCTURE OF RICIN A CHAIN BOUND WITH INHIBITOR 8-METHYL-9-OXOGUANINE | 3.2.2.22 |
| 1ILD | OUTER MEMBRANE PHOSPHOLIPASE A FROM ESCHERICHIA COLI N156A ACTIVE SITE MUTANT PH 4.6 | 3.1.1.32 3.1.1.4 |
| 1ILV | CRYSTAL STRUCTURE ANALYSIS OF THE TM107 | 3.1.3.5 |
| 1ILW | CRYSTAL STRUCTURE OF PYRAZINAMIDASE/NICOTINAMIDASE OF PYROCOCCUS HORIKOSHII | 3.5.1.19 |
| 1ILZ | OUTER MEMBRANE PHOSPHOLIPASE A FROM ESCHERICHIA COLI N156A ACTIVE SITE MUTANT PH 6.1 | 3.1.1.32 3.1.1.4 |
| 1IM0 | OUTER MEMBRANE PHOSPHOLIPASE A FROM ESCHERICHIA COLI N156A ACTIVE SITE MUTANT PH 8.3 | 3.1.1.32 3.1.1.4 |
| 1IM5 | CRYSTAL STRUCTURE OF PYRAZINAMIDASE OF PYROCOCCUS HORIKOSHII IN COMPLEX WITH ZINC | 3.5.1.19 |
| 1IMA | STRUCTURAL ANALYSIS OF INOSITOL MONOPHOSPHATASE COMPLEXES WITH SUBSTRATES | 3.1.3.25 3.1.3.94 |
| 1IMB | STRUCTURAL ANALYSIS OF INOSITOL MONOPHOSPHATASE COMPLEXES WITH SUBSTRATES | 3.1.3.25 3.1.3.94 |
| 1IMC | STRUCTURAL STUDIES OF METAL BINDING BY INOSITOL MONOPHOSPHATASE: EVIDENCE FOR TWO-METAL ION CATALYSIS | 3.1.3.25 3.1.3.94 |
| 1IMD | STRUCTURAL STUDIES OF METAL BINDING BY INOSITOL MONOPHOSPHATASE: EVIDENCE FOR TWO-METAL ION CATALYSIS | 3.1.3.25 3.1.3.94 |
| 1IME | STRUCTURAL STUDIES OF METAL BINDING BY INOSITOL MONOPHOSPHATASE: EVIDENCE FOR TWO-METAL ION CATALYSIS | 3.1.3.25 3.1.3.94 |
| 1IMF | STRUCTURAL STUDIES OF METAL BINDING BY INOSITOL MONOPHOSPHATASE: EVIDENCE FOR TWO-METAL ION CATALYSIS | 3.1.3.25 3.1.3.94 |
| 1IMJ | CRYSTAL STRUCTURE OF THE HUMAN CCG1/TAFII250-INTERACTING FACTOR B (CIB) | 3 |
| 1IN4 | THERMOTOGA MARITIMA RUVB HOLLIDAY JUNCTION BRANCH MIGRATION MOTOR | 3.6.4.12 |
| 1IN5 | THERMOGOTA MARITIMA RUVB A156S MUTANT | 3.6.4.12 |
| 1IN6 | THERMOTOGA MARITIMA RUVB K64R MUTANT | 3.6.4.12 |
| 1IN7 | THERMOTOGA MARITIMA RUVB R170A | 3.6.4.12 |
| 1IN8 | THERMOTOGA MARITIMA RUVB T158V | 3.6.4.12 |
| 1INC | CRYSTAL STRUCTURES OF THE COMPLEX OF PORCINE PANCREATIC ELASTASE WITH TWO VALINE-DERIVED BENZOXAZINONE INHIBITORS | 3.4.21.36 |
| 1INF | INFLUENZA VIRUS B/LEE/40 NEURAMINIDASE COMPLEXED WITH BANA113 INHIBITOR | 3.2.1.18 |
| 1ING | INFLUENZA A SUBTYPE N2 NEURAMINIDASE COMPLEXED WITH AROMATIC BANA109 INHIBITOR | 3.2.1.18 |
| 1INH | INFLUENZA A SUBTYPE N2 NEURAMINIDASE COMPLEXED WITH AROMATIC BANA111 INHIBITOR | 3.2.1.18 |
| 1INO | RECOMBINANT INORGANIC PYROPHOSPHATASE FROM ESCHERICHIA COLI | 3.6.1.1 |
| 1INP | CRYSTAL STRUCTURE OF INOSITOL POLYPHOSPHATE 1-PHOSPHATASE AT 2.3 ANGSTROMS RESOLUTION | 3.1.3.57 |
| 1INU | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME SUBSTITUTED AT THE SURFACE POSITIONS | 3.2.1.17 |
| 1INV | A SIALIC ACID DERIVED PHOSPHONATE ANALOG INHIBITS DIFFERENT STRAINS OF INFLUENZA VIRUS NEURAMINIDASE WITH DIFFERENT EFFICIENCIES | 3.2.1.18 |
| 1INW | A SIALIC ACID DERIVED PHOSPHONATE ANALOG INHIBITS DIFFERENT STRAINS OF INFLUENZA VIRUS NEURAMINIDASE WITH DIFFERENT EFFICIENCIES | 3.2.1.18 |
| 1INX | A SIALIC ACID DERIVED PHOSPHONATE ANALOG INHIBITS DIFFERENT STRAINS OF INFLUENZA VIRUS NEURAMINIDASE WITH DIFFERENT EFFICIENCIES | 3.2.1.18 |
| 1INY | A SIALIC ACID DERIVED PHOSPHONATE ANALOG INHIBITS DIFFERENT STRAINS OF INFLUENZA VIRUS NEURAMINIDASE WITH DIFFERENT EFFICIENCIES | 3.2.1.18 |
| 1IO2 | CRYSTAL STRUCTURE OF TYPE 2 RIBONUCLEASE H FROM HYPERTHERMOPHILIC ARCHAEON, THERMOCOCCUS KODAKARAENSIS KOD1 | 3.1.26.4 |
| 1IO5 | HYDROGEN AND HYDRATION OF HEN EGG-WHITE LYSOZYME DETERMINED BY NEUTRON DIFFRACTION | 3.2.1.17 |
| 1IOC | CRYSTAL STRUCTURE OF MUTANT HUMAN LYSOZYME, EAEA-I56T | 3.2.1.17 |
| 1IOE | HUMAN COAGULATION FACTOR XA IN COMPLEX WITH M55532 | 3.4.21.6 |
| 1IOF | X-RAY CRYSTALLINE STRUCTURES OF PYRROLIDONE CARBOXYL PEPTIDASE FROM A HYPERTHERMOPHILE, PYROCOCCUS FURIOSUS, AND ITS CYS-FREE MUTANT | 3.4.19.3 |
| 1IOI | X-RAY CRYSTALLINE STRUCTURES OF PYRROLIDONE CARBOXYL PEPTIDASE FROM A HYPERTHERMOPHILE, PYROCOCCUS FURIOSUS, AND ITS CYS-FREE MUTANT | 3.4.19.3 |
| 1IOQ | STABILIZATION OF HEN EGG WHITE LYSOZYME BY A CAVITY-FILLING MUTATION | 3.2.1.17 |
| 1IOR | STABILIZATION OF HEN EGG WHITE LYSOZYME BY A CAVITY-FILLING MUTATION | 3.2.1.17 |
| 1IOS | STABILIZATION OF HEN EGG WHITE LYSOZYME BY A CAVITY-FILLING MUTATION | 3.2.1.17 |
| 1IOT | STABILIZATION OF HEN EGG WHITE LYSOZYME BY A CAVITY-FILLING MUTATION | 3.2.1.17 |
| 1IOZ | CRYSTAL STRUCTURE OF THE C-HA-RAS PROTEIN PREPARED BY THE CELL-FREE SYNTHESIS | 3.6.5.2 |
| 1IP1 | G37A HUMAN LYSOZYME | 3.2.1.17 |
| 1IP2 | G48A HUMAN LYSOZYME | 3.2.1.17 |
| 1IP3 | G68A HUMAN LYSOZYME | 3.2.1.17 |
| 1IP4 | G72A HUMAN LYSOZYME | 3.2.1.17 |
| 1IP5 | G105A HUMAN LYSOZYME | 3.2.1.17 |
| 1IP6 | G127A HUMAN LYSOZYME | 3.2.1.17 |
| 1IP7 | G129A HUMAN LYSOZYME | 3.2.1.17 |
| 1IPI | CRYSTAL STRUCTURE OF THE ARCHAEAL HOLLIDAY JUNCTION RESOLVASE HJC FROM PYROCOCCUS FURIOSUS FORM II | 3.1.22.4 |
| 1IPP | HOMING ENDONUCLEASE/DNA COMPLEX | 3.1 |
| 1IPW | INORGANIC PYROPHOSPHATASE FROM ESCHERICHIA COLI WITH THREE MAGNESIUM IONS | 3.6.1.1 |
| 1IQB | CRYSTAL STRUCTURE OF URTICA DIOICA AGGLUTININ ISOLECTIN I | 3.2.1.14 |
| 1IQE | HUMAN COAGULATION FACTOR XA IN COMPLEX WITH M55590 | 3.4.21.6 |
| 1IQF | HUMAN COAGULATION FACTOR XA IN COMPLEX WITH M55165 | 3.4.21.6 |
| 1IQG | HUMAN COAGULATION FACTOR XA IN COMPLEX WITH M55159 | 3.4.21.6 |
| 1IQH | HUMAN COAGULATION FACTOR XA IN COMPLEX WITH M55143 | 3.4.21.6 |
| 1IQI | HUMAN COAGULATION FACTOR XA IN COMPLEX WITH M55125 | 3.4.21.6 |
| 1IQJ | HUMAN COAGULATION FACTOR XA IN COMPLEX WITH M55124 | 3.4.21.6 |
| 1IQK | HUMAN COAGULATION FACTOR XA IN COMPLEX WITH M55113 | 3.4.21.6 |
| 1IQL | HUMAN COAGULATION FACTOR XA IN COMPLEX WITH M54476 | 3.4.21.6 |
| 1IQM | HUMAN COAGULATION FACTOR XA IN COMPLEX WITH M54471 | 3.4.21.6 |
| 1IQN | HUMAN COAGULATION FACTOR XA IN COMPLEX WITH M55192 | 3.4.21.6 |
| 1IQQ | CRYSTAL STRUCTURE OF JAPANESE PEAR S3-RNASE | 3.1.27.1 4.6.1.19 |
| 1IR6 | CRYSTAL STRUCTURE OF EXONUCLEASE RECJ BOUND TO MANGANESE | 3.1 |
| 1IR7 | IM MUTANT OF LYSOZYME | 3.2.1.17 |
| 1IR8 | IM MUTANT OF LYSOZYME | 3.2.1.17 |
| 1IR9 | IM MUTANT OF LYSOZYME | 3.2.1.17 |
| 1IRB | CARBOXYLIC ESTER HYDROLASE | 3.1.1.4 |
| 1IRY | SOLUTION STRUCTURE OF THE HMTH1, A NUCLEOTIDE POOL SANITIZATION ENZYME | 3.1.6 3.6.1.55 3.6.1.56 |
| 1IS7 | CRYSTAL STRUCTURE OF RAT GTPCHI/GFRP STIMULATORY COMPLEX | 3.5.4.16 |
| 1IS8 | CRYSTAL STRUCTURE OF RAT GTPCHI/GFRP STIMULATORY COMPLEX PLUS ZN | 3.5.4.16 |
| 1IS9 | ENDOGLUCANASE A FROM CLOSTRIDIUM THERMOCELLUM AT ATOMIC RESOLUTION | 3.2.1.4 |
| 1ISF | CRYSTAL STRUCTURE ANALYSIS OF BST-1/CD157 | 3.2.2.5 3.2.2.6 |
| 1ISG | CRYSTAL STRUCTURE ANALYSIS OF BST-1/CD157 WITH ATPGAMMAS | 3.2.2.5 3.2.2.6 |
| 1ISH | CRYSTAL STRUCTURE ANALYSIS OF BST-1/CD157 COMPLEXED WITH ETHENONADP | 3.2.2.5 3.2.2.6 |
| 1ISI | CRYSTAL STRUCTURE ANALYSIS OF BST-1/CD157 COMPLEXED WITH ETHENONAD | 3.2.2.5 3.2.2.6 |
| 1ISJ | CRYSTAL STRUCTURE ANALYSIS OF BST-1/CD157 COMPLEXED WITH NMN | 3.2.2.5 3.2.2.6 |
| 1ISM | CRYSTAL STRUCTURE ANALYSIS OF BST-1/CD157 COMPLEXED WITH NICOTINAMIDE | 3.2.2.5 3.2.2.6 |
| 1ISP | CRYSTAL STRUCTURE OF BACILLUS SUBTILIS LIPASE AT 1.3A RESOLUTION | 3.1.1.3 |
| 1ISV | CRYSTAL STRUCTURE OF XYLANASE FROM STREPTOMYCES OLIVACEOVIRIDIS E-86 COMPLEXED WITH XYLOSE | 3.2.1.8 |
| 1ISW | CRYSTAL STRUCTURE OF XYLANASE FROM STREPTOMYCES OLIVACEOVIRIDIS E-86 COMPLEXED WITH XYLOBIOSE | 3.2.1.8 |
| 1ISX | CRYSTAL STRUCTURE OF XYLANASE FROM STREPTOMYCES OLIVACEOVIRIDIS E-86 COMPLEXED WITH XYLOTRIOSE | 3.2.1.8 |
| 1ISY | CRYSTAL STRUCTURE OF XYLANASE FROM STREPTOMYCES OLIVACEOVIRIDIS E-86 COMPLEXED WITH GLUCOSE | 3.2.1.8 |
| 1ISZ | CRYSTAL STRUCTURE OF XYLANASE FROM STREPTOMYCES OLIVACEOVIRIDIS E-86 COMPLEXED WITH GALACTOSE | 3.2.1.8 |
| 1IT0 | CRYSTAL STRUCTURE OF XYLANASE FROM STREPTOMYCES OLIVACEOVIRIDIS E-86 COMPLEXED WITH LACTOSE | 3.2.1.8 |
| 1IT4 | SOLUTION STRUCTURE OF THE PROKARYOTIC PHOSPHOLIPASE A2 FROM STREPTOMYCES VIOLACEORUBER | 3.1.1.4 |
| 1IT5 | SOLUTION STRUCTURE OF APO-TYPE PLA2 FROM STREPTOMYCES VIOLACERUBER A-2688. | 3.1.1.4 |
| 1IT6 | CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN CALYCULIN A AND THE CATALYTIC SUBUNIT OF PROTEIN PHOSPHATASE 1 | 3.1.3.16 |
| 1ITC | BETA-AMYLASE FROM BACILLUS CEREUS VAR. MYCOIDES COMPLEXED WITH MALTOPENTAOSE | 3.2.1.2 |
| 1ITG | CRYSTAL STRUCTURE OF THE CATALYTIC DOMAIN OF HIV-1 INTEGRASE: SIMILARITY TO OTHER POLYNUCLEOTIDYL TRANSFERASES | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1ITO | CRYSTAL STRUCTURE ANALYSIS OF BOVINE SPLEEN CATHEPSIN B-E64C COMPLEX | 3.4.22.1 |
| 1ITQ | HUMAN RENAL DIPEPTIDASE | 3.4.13.19 3.5.2.6 |
| 1ITU | HUMAN RENAL DIPEPTIDASE COMPLEXED WITH CILASTATIN | 3.4.13.19 3.5.2.6 |
| 1ITV | DIMERIC FORM OF THE HAEMOPEXIN DOMAIN OF MMP9 | 3.4.24.35 |
| 1ITX | CATALYTIC DOMAIN OF CHITINASE A1 FROM BACILLUS CIRCULANS WL-12 | 3.2.1.14 |
| 1IU8 | THE X-RAY CRYSTAL STRUCTURE OF PYRROLIDONE-CARBOXYLATE PEPTIDASE FROM HYPERTHERMOPHILIC ARCHAEON PYROCOCCUS HORIKOSHII | 3.4.19.3 |
| 1IUH | CRYSTAL STRUCTURE OF TT0787 OF THERMUS THERMOPHILUS HB8 | 3.1.4.58 |
| 1IUN | META-CLEAVAGE PRODUCT HYDROLASE FROM PSEUDOMONAS FLUORESCENS IP01 (CUMD) S103A MUTANT HEXAGONAL | 3.7.1.9 |
| 1IUO | META-CLEAVAGE PRODUCT HYDROLASE FROM PSEUDOMONAS FLUORESCENS IP01 (CUMD) S103A MUTANT COMPLEXED WITH ACETATES | 3.7.1.9 |
| 1IUP | META-CLEAVAGE PRODUCT HYDROLASE FROM PSEUDOMONAS FLUORESCENS IP01 (CUMD) S103A MUTANT COMPLEXED WITH ISOBUTYRATES | 3.7.1.9 |
| 1IV0 | SOLUTION STRUCTURE OF THE YQGF-FAMILY PROTEIN (N-TERMINAL FRAGMENT) | 3.1 |
| 1IVB | STRUCTURES OF AROMATIC INHIBITORS OF INFLUENZA VIRUS NEURAMINIDASE | 3.2.1.18 |
| 1IVC | STRUCTURES OF AROMATIC INHIBITORS OF INFLUENZA VIRUS NEURAMINIDASE | 3.2.1.18 |
| 1IVD | STRUCTURES OF AROMATIC INHIBITORS OF INFLUENZA VIRUS NEURAMINIDASE | 3.2.1.18 |
| 1IVE | STRUCTURES OF AROMATIC INHIBITORS OF INFLUENZA VIRUS NEURAMINIDASE | 3.2.1.18 |
| 1IVF | STRUCTURES OF AROMATIC INHIBITORS OF INFLUENZA VIRUS NEURAMINIDASE | 3.2.1.18 |
| 1IVG | STRUCTURES OF AROMATIC INHIBITORS OF INFLUENZA VIRUS NEURAMINIDASE | 3.2.1.18 |
| 1IVM | SOLUTION STRUCTURE OF MOUSE LYSOZYME M | 3.2.1.17 |
| 1IVN | E.COLI THIOESTERASE I/PROTEASE I/LYSOPHOSPHOLIASE L1 | 3.1.1.5 3.1.2 3.1.2.2 3.1.1.2 3.1.2.14 3.4.21 |
| 1IVP | THE CRYSTALLOGRAPHIC STRUCTURE OF THE PROTEASE FROM HUMAN IMMUNODEFICIENCY VIRUS TYPE 2 WITH TWO SYNTHETIC PEPTIDIC TRANSITION STATE ANALOG INHIBITORS | 3.4.23.47 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1IVQ | THE CRYSTALLOGRAPHIC STRUCTURE OF THE PROTEASE FROM HUMAN IMMUNODEFICIENCY VIRUS TYPE 2 WITH TWO SYNTHETIC PEPTIDIC TRANSITION STATE ANALOG INHIBITORS | 3.4.23.47 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1IVY | PHYSIOLOGICAL DIMER HPP PRECURSOR | 3.4.16.5 |
| 1IW8 | CRYSTAL STRUCTURE OF A MUTANT OF ACID PHOSPHATASE FROM ESCHERICHIA BLATTAE (G74D/I153T) | 3.1.3.2 |
| 1IWC | TFE-INDUDED STRUCTURE OF THE N-TERMINAL DOMAIN OF PIG GASTRIC H/K-ATPASE | 3.6.3.10 |
| 1IWD | PROPOSED AMINO ACID SEQUENCE AND THE 1.63 ANGSTROM X-RAY CRYSTAL STRUCTURE OF A PLANT CYSTEINE PROTEASE ERVATAMIN B: INSIGHT INTO THE STRUCTURAL BASIS OF ITS STABILITY AND SUBSTRATE SPECIFICITY. | 3.4.22 |
| 1IWF | SOLUTION STRUCTURE OF THE N-TERMINAL DOMAIN OF PIG GASTRIC H/K-ATPASE | 3.6.3.10 |
| 1IWT | CRYSTAL STRUCTURE ANALYSIS OF HUMAN LYSOZYME AT 113K. | 3.2.1.17 |
| 1IWU | CRYSTAL STRUCTURE ANALYSIS OF HUMAN LYSOZYME AT 127K. | 3.2.1.17 |
| 1IWV | CRYSTAL STRUCTURE ANALYSIS OF HUMAN LYSOZYME AT 147K. | 3.2.1.17 |
| 1IWW | CRYSTAL STRUCTURE ANALYSIS OF HUMAN LYSOZYME AT 152K. | 3.2.1.17 |
| 1IWX | CRYSTAL STRUCTURE ANALYSIS OF HUMAN LYSOZYME AT 161K. | 3.2.1.17 |
| 1IWY | CRYSTAL STRUCTURE ANALYSIS OF HUMAN LYSOZYME AT 170K. | 3.2.1.17 |
| 1IWZ | CRYSTAL STRUCTURE ANALYSIS OF HUMAN LYSOZYME AT 178K. | 3.2.1.17 |
| 1IX0 | I59A-3SS HUMAN LYSOZYME | 3.2.1.17 |
| 1IX1 | CRYSTAL STRUCTURE OF P.AERUGINOSA PEPTIDE DEFORMYLASE COMPLEXED WITH ANTIBIOTIC ACTINONIN | 3.5.1.88 |
| 1IXA | THE THREE-DIMENSIONAL STRUCTURE OF THE FIRST EGF-LIKE MODULE OF HUMAN FACTOR IX: COMPARISON WITH EGF AND TGF-A | 3.4.21.22 |
| 1IXD | SOLUTION STRUCTURE OF THE CAP-GLY DOMAIN FROM HUMAN CYLINDROMATOSIS TOMOUR-SUPPRESSOR CYLD | 3.1.2.15 3.4.19.12 |
| 1IXR | RUVA-RUVB COMPLEX | 3.6.4.12 |
| 1IXS | STRUCTURE OF RUVB COMPLEXED WITH RUVA DOMAIN III | 3.6.4.12 |
| 1IXZ | CRYSTAL STRUCTURE OF THE FTSH ATPASE DOMAIN FROM THERMUS THERMOPHILUS | 3.4.24 |
| 1IY0 | CRYSTAL STRUCTURE OF THE FTSH ATPASE DOMAIN WITH AMP-PNP FROM THERMUS THERMOPHILUS | 3.4.24 |
| 1IY1 | CRYSTAL STRUCTURE OF THE FTSH ATPASE DOMAIN WITH ADP FROM THERMUS THERMOPHILUS | 3.4.24 |
| 1IY2 | CRYSTAL STRUCTURE OF THE FTSH ATPASE DOMAIN FROM THERMUS THERMOPHILUS | 3.4.24 |
| 1IY3 | SOLUTION STRUCTURE OF THE HUMAN LYSOZYME AT 4 DEGREE C | 3.2.1.17 |
| 1IY4 | SOLUTION STRUCTURE OF THE HUMAN LYSOZYME AT 35 DEGREE C | 3.2.1.17 |
| 1IY7 | CRYSTAL STRUCTURE OF CPA AND SULFAMIDE-BASED INHIBITOR COMPLEX | 3.4.17.1 |
| 1IYB | CRYSTAL STRUCTURE OF THE NICOTIANA GLUTINOSA RIBONUCLEASE NW | 3.1 |
| 1IYO | TOHO-1 BETA-LACTAMASE IN COMPLEX WITH CEFOTAXIME | 3.5.2.6 |
| 1IYP | TOHO-1 BETA-LACTAMASE IN COMPLEX WITH CEPHALOTHIN | 3.5.2.6 |
| 1IYQ | TOHO-1 BETA-LACTAMASE IN COMPLEX WITH BENZYLPENICILLIN | 3.5.2.6 |
| 1IYS | CRYSTAL STRUCTURE OF CLASS A BETA-LACTAMASE TOHO-1 | 3.5.2.6 |
| 1IYY | NMR STRUCTURE OF GLN25-RIBONUCLEASE T1, 24 STRUCTURES | 3.1.27.3 4.6.1.24 |
| 1IZ7 | RE-REFINEMENT OF THE STRUCTURE OF HYDROLYTIC HALOALKANE DEHALOGENASE LINB FROM SPHINGOMONAS PAUCIMOBILIS UT26 AT 1.6 A RESOLUTION | 3.8.1 3.8.1.5 |
| 1IZ8 | RE-REFINEMENT OF THE STRUCTURE OF HYDROLYTIC HALOALKANE DEHALOGENASE LINB FROM SPHINGOMONAS PAUCIMOBILIS UT26 WITH 1,3-PROPANEDIOL, A PRODUCT OF DEBROMIDATION OF DIBROMPROPANE, AT 2.0A RESOLUTION | 3.8.1 3.8.1.5 |
| 1IZD | CRYSTAL STRUCTURE OF ASPERGILLUS ORYZAE ASPARTIC PROTEINASE | 3.4.23.18 |
| 1IZE | CRYSTAL STRUCTURE OF ASPERGILLUS ORYZAE ASPARTIC PROTEINASE COMPLEXED WITH PEPSTATIN | 3.4.23.18 |
| 1IZH | INHIBITOR OF HIV PROTEASE WITH UNUSUAL BINDING MODE POTENTLY INHIBITING MULTI-RESISTANT PROTEASE MUTANTS | 3.4.23.16 |
| 1IZI | INHIBITOR OF HIV PROTEASE WITH UNUSUAL BINDING MODE POTENTLY INHIBITING MULTI-RESISTANT PROTEASE MUTANTS | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1IZJ | THERMOACTINOMYCES VULGARIS R-47 ALPHA-AMYLASE 1 MUTANT ENZYME F313A | 3.2.1.1 3.2.1.135 |
| 1IZK | THERMOACTINOMYCES VULGARIS R-47 ALPHA-AMYLASE 1 MUTANT ENZYME W398V | 3.2.1.1 3.2.1.135 |
| 1IZP | F46L MUTANT OF BOVINE PANCREATIC RIBONUCLEASE A | 3.1.27.5 4.6.1.18 |
| 1IZQ | F46V MUTANT OF BOVINE PANCREATIC RIBONUCLEASE A | 3.1.27.5 4.6.1.18 |
| 1IZR | F46A MUTANT OF BOVINE PANCREATIC RIBONUCLEASE A | 3.1.27.5 4.6.1.18 |
| 1IZY | CRYSTAL STRUCTURE OF HSP31 | 3.1.2 3.5.1 3.5.1.124 4.2.1.130 |
| 1IZZ | CRYSTAL STRUCTURE OF HSP31 | 3.1.2 3.5.1 3.5.1.124 4.2.1.130 |
| 1J00 | E. COLI THIOESTERASE I/PROTEASE I/LYSOPHOSPHOLIPASE L1 IN COMPLEXED WITH DIETHYL PHOSPHONO MOIETY | 3.1.2 3.1.1.5 3.1.2.2 3.1.1.2 3.1.2.14 3.4.21 |
| 1J01 | CRYSTAL STRUCTURE OF THE XYLANASE CEX WITH XYLOBIOSE-DERIVED INHIBITOR ISOFAGOMINE LACTAM | 3.2.1.91 3.2.1.8 |
| 1J06 | CRYSTAL STRUCTURE OF MOUSE ACETYLCHOLINESTERASE IN THE APO FORM | 3.1.1.7 |
| 1J07 | CRYSTAL STRUCTURE OF THE MOUSE ACETYLCHOLINESTERASE-DECIDIUM COMPLEX | 3.1.1.7 |
| 1J0A | CRYSTAL STRUCTURE ANALYSIS OF THE ACC DEAMINASE HOMOLOGUE | 4.1.99.4 3.5.99.7 |
| 1J0C | ACC DEAMINASE MUTATED TO CATALYTIC RESIDUE | 4.1.99.4 3.5.99.7 |
| 1J0D | ACC DEAMINASE MUTANT COMPLEXED WITH ACC | 4.1.99.4 3.5.99.7 |
| 1J0E | ACC DEAMINASE MUTANT REACTON INTERMEDIATE | 4.1.99.4 3.5.99.7 |
| 1J0H | CRYSTAL STRUCTURE OF BACILLUS STEAROTHERMOPHILUS NEOPULLULANASE | 3.2.1.135 |
| 1J0I | CRYSTAL STRUCTURE OF NEOPULLULANASE COMPLEX WITH PANOSE | 3.2.1.135 |
| 1J0J | CRYSTAL STRUCTURE OF NEOPULLULANASE E357Q COMPLEX WITH MALTOTETRAOSE | 3.2.1.135 |
| 1J0K | CRYSTAL STRUCTURE OF NEOPULLULANASE E357Q COMPLEX WITH ISOPANOSE | 3.2.1.135 |
| 1J0Y | BETA-AMYLASE FROM BACILLUS CEREUS VAR. MYCOIDES IN COMPLEX WITH GLUCOSE | 3.2.1.2 |
| 1J0Z | BETA-AMYLASE FROM BACILLUS CEREUS VAR. MYCOIDES IN COMPLEX WITH MALTOSE | 3.2.1.2 |
| 1J10 | BETA-AMYLASE FROM BACILLUS CEREUS VAR. MYCOIDES IN COMPLEX WITH GGX | 3.2.1.2 |
| 1J11 | BETA-AMYLASE FROM BACILLUS CEREUS VAR. MYCOIDES IN COMPLEX WITH ALPHA-EPG | 3.2.1.2 |
| 1J12 | BETA-AMYLASE FROM BACILLUS CEREUS VAR. MYCOIDES IN COMPLEX WITH ALPHA-EBG | 3.2.1.2 |
| 1J14 | BENZAMIDINE IN COMPLEX WITH RAT TRYPSIN MUTANT X99RT | 3.4.21.4 |
| 1J15 | BENZAMIDINE IN COMPLEX WITH RAT TRYPSIN MUTANT X99/175/190RT | 3.4.21.4 |
| 1J16 | BENZAMIDINE IN COMPLEX WITH RAT TRYPSIN MUTANT X99/175/190RT | 3.4.21.4 |
| 1J17 | FACTOR XA SPECIFIC INHIBITOR IN COMPLEX WITH RAT TRYPSIN MUTANT X99/175/190RT | 3.4.21.4 |
| 1J18 | CRYSTAL STRUCTURE OF A BETA-AMYLASE FROM BACILLUS CEREUS VAR. MYCOIDES COCRYSTALLIZED WITH MALTOSE | 3.2.1.2 |
| 1J1A | PANCREATIC SECRETORY PHOSPHOLIPASE A2 (IIA) WITH ANTI-INFLAMMATORY ACTIVITY | 3.1.1.4 |
| 1J1F | CRYSTAL STRUCTURE OF THE RNASE MC1 MUTANT N71T IN COMPLEX WITH 5'-GMP | 3.1.27.1 4.6.1.19 |
| 1J1G | CRYSTAL STRUCTURE OF THE RNASE MC1 MUTANT N71S IN COMPLEX WITH 5'-GMP | 3.1.27.1 4.6.1.19 |
| 1J1I | CRYSTAL STRUCTURE OF A HIS-TAGGED SERINE HYDROLASE INVOLVED IN THE CARBAZOLE DEGRADATION (CARC ENZYME) | 3.7.1.8 |
| 1J1J | CRYSTAL STRUCTURE OF HUMAN TRANSLIN | 3.1 |
| 1J1M | RICIN A-CHAIN (RECOMBINANT) AT 100K | 3.2.2.22 |
| 1J1Q | STRUCTURE OF POKEWEED ANTIVIRAL PROTEIN FROM SEEDS (PAP-S1) | 3.2.2.22 |
| 1J1R | STRUCTURE OF POKEWEED ANTIVIRAL PROTEIN FROM SEEDS (PAP-S1) COMPLEXED WITH ADENINE | 3.2.2.22 |
| 1J1S | POKEWEED ANTIVIRAL PROTEIN FROM SEEDS (PAP-S1) COMPLEXED WITH FORMYCIN | 3.2.2.22 |
| 1J26 | SOLUTION STRUCTURE OF A PUTATIVE PEPTIDYL-TRNA HYDROLASE DOMAIN IN A MOUSE HYPOTHETICAL PROTEIN | 3.1.1.29 |
| 1J2E | CRYSTAL STRUCTURE OF HUMAN DIPEPTIDYL PEPTIDASE IV | 3.4.14.5 |
| 1J2P | ALPHA-RING FROM THE PROTEASOME FROM ARCHAEOGLOBUS FULGIDUS | 3.4.25.1 |
| 1J2R | CRYSTAL STRUCTURE OF ESCHERICHIA COLI GENE PRODUCT YECD AT 1.3 A RESOLUTION | 3 |
| 1J2T | CREATININASE MN | 3.5.2.10 |
| 1J2U | CREATININASE ZN | 3.5.2.10 |
| 1J36 | CRYSTAL STRUCTURE OF DROSOPHILA ANCE | 3.4.15.1 |
| 1J37 | CRYSTAL STRUCTURE OF DROSOPHILA ANCE | 3.4.15.1 |
| 1J38 | CRYSTAL STRUCTURE OF DROSOPHILA ANCE | 3.4.15.1 |
| 1J3G | SOLUTION STRUCTURE OF CITROBACTER FREUNDII AMPD | 3.5.1.28 |
| 1J42 | CRYSTAL STRUCTURE OF HUMAN DJ-1 | 3.1.2 3.5.1 3.5.1.124 |
| 1J4G | CRYSTAL STRUCTURE ANALYSIS OF THE TRICHOSANTHIN DELTA C7 | 3.2.2.22 |
| 1J4X | HUMAN VH1-RELATED DUAL-SPECIFICITY PHOSPHATASE C124S MUTANT-PEPTIDE COMPLEX | 3.1.3.48 3.1.3.16 |
| 1J5O | CRYSTAL STRUCTURE OF MET184ILE MUTANT OF HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH DOUBLE STRANDED DNA TEMPLATE-PRIMER | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1J5X | CRYSTAL STRUCTURE OF GLUCOSAMINE-6-PHOSPHATE DEAMINASE (TM0813) FROM THERMOTOGA MARITIMA AT 1.8 A RESOLUTION | 3.5.99.6 |
| 1J6O | CRYSTAL STRUCTURE OF TATD-RELATED DEOXYRIBONUCLEASE (TM0667) FROM THERMOTOGA MARITIMA AT 1.8 A RESOLUTION | 3.1.21 |
| 1J6P | CRYSTAL STRUCTURE OF METAL-DEPENDENT HYDROLASE OF CYTOSINEDEMANIASE/CHLOROHYDROLASE FAMILY (TM0936) FROM THERMOTOGA MARITIMA AT 1.9 A RESOLUTION | 3.5.4.28 3.5.4.31 |
| 1J71 | STRUCTURE OF THE EXTRACELLULAR ASPARTIC PROTEINASE FROM CANDIDA TROPICALIS YEAST. | 3.4.23.24 |
| 1J79 | MOLECULAR STRUCTURE OF DIHYDROOROTASE: A PARADIGM FOR CATALYSIS THROUGH THE USE OF A BINUCLEAR METAL CENTER | 3.5.2.3 |
| 1J7G | STRUCTURE OF YIHZ FROM HAEMOPHILUS INFLUENZAE (HI0670), A D-TYR-TRNA(TYR) DEACYLASE | 3.1 3.1.1.96 |
| 1J7K | THERMOTOGA MARITIMA RUVB P216G MUTANT | 3.6.4.12 |
| 1J7M | THE THIRD FIBRONECTIN TYPE II MODULE FROM HUMAN MATRIX METALLOPROTEINASE 2 | 3.4.24.24 |
| 1J7N | ANTHRAX TOXIN LETHAL FACTOR | 3.4.24.83 |
| 1J7Z | OSMOLYTE STABILIZATION OF RIBONUCLEASE | 3.1.27.5 |
| 1J80 | OSMOLYTE STABILIZATION OF RNASE | 3.1.27.5 |
| 1J81 | OSMOLYTE STABILIZATION OF RNASE | 3.1.27.5 |
| 1J82 | OSMOLYTE STABILIZATION OF RNASE | 3.1.27.5 |
| 1J83 | STRUCTURE OF FAM17 CARBOHYDRATE BINDING MODULE FROM CLOSTRIDIUM CELLULOVORANS | 3.2.1.4 |
| 1J84 | STRUCTURE OF FAM17 CARBOHYDRATE BINDING MODULE FROM CLOSTRIDIUM CELLULOVORANS WITH BOUND CELLOTETRAOSE | 3.2.1.4 |
| 1J8A | CRYSTAL STRUCTURE OF BENZAMIDINE INHIBITED BOVINE PANCREATIC TRYPSIN AT 105K TO 1.21A RESOLUTION FROM LABORATORY SOURCE WITH HIGH NUMBER OF WATERS MODELLED | 3.4.21.4 |
| 1J8D | STRUCTURE OF THE METAL-FREE FORM OF THE DEOXY-D-MANNOSE-OCTULOSONATE 8-PHOSPHATE PHOSPHATASE (YRBI) FROM HAEMOPHILUS INFLUENZAE (HI1679) | 3.1.3 3.1.3.45 |
| 1J8V | CRYSTAL STRUCTURE OF BARLEY BETA-D-GLUCAN GLUCOHYDROLASE ISOENZYME EXO1 IN COMPLEX WITH 4'-NITROPHENYL 3I-THIOLAMINARITRIOSIDE | 3.2.1.58 |
| 1J97 | PHOSPHO-ASPARTYL INTERMEDIATE ANALOGUE OF PHOSPHOSERINE PHOSPHATASE | 3.1.3.3 |
| 1J9A | OLIGORIBONUCLEASE | 3.1 |
| 1J9C | CRYSTAL STRUCTURE OF TISSUE FACTOR-FACTOR VIIA COMPLEX | 3.4.21.21 |
| 1J9I | STRUCTURE OF THE DNA BINDING DOMAIN OF THE GPNU1 SUBUNIT OF LAMBDA TERMINASE | 3.6.4 |
| 1J9J | CRYSTAL STRUCTURE ANALYSIS OF SURE PROTEIN FROM T.MARITIMA | 3.1.3.5 |
| 1J9K | CRYSTAL STRUCTURE OF SURE PROTEIN FROM T.MARITIMA IN COMPLEX WITH TUNGSTATE | 3.1.3.5 |
| 1J9L | CRYSTAL STRUCTURE OF SURE PROTEIN FROM T.MARITIMA IN COMPLEX WITH VANADATE | 3.1.3.5 |
| 1J9M | K38H MUTANT OF STREPTOMYCES K15 DD-TRANSPEPTIDASE | 3.4.16.4 |
| 1J9Y | CRYSTAL STRUCTURE OF MANNANASE 26A FROM PSEUDOMONAS CELLULOSA | 3.2.1.78 |
| 1JA2 | BINDING OF N-ACETYLGLUCOSAMINE TO CHICKEN EGG LYSOZYME: A POWDER DIFFRACTION STUDY | 3.2.1.17 |
| 1JA4 | BINDING OF N-ACETYLGLUCOSAMINE TO CHICKEN EGG LYSOZYME: A POWDER DIFFRACTION STUDY | 3.2.1.17 |
| 1JA6 | BINDING OF N-ACETYLGLUCOSAMINE TO CHICKEN EGG LYSOZYME: A POWDER DIFFRACTION STUDY | 3.2.1.17 |
| 1JA7 | BINDING OF N-ACETYLGLUCOSAMINE TO CHICKEN EGG LYSOZYME: A POWDER DIFFRACTION STUDY | 3.2.1.17 |
| 1JAD | C-TERMINAL DOMAIN OF TURKEY PLC-BETA | 3.1.4.11 |
| 1JAE | STRUCTURE OF TENEBRIO MOLITOR LARVAL ALPHA-AMYLASE | 3.2.1.1 |
| 1JAH | H-RAS P21 PROTEIN MUTANT G12P, COMPLEXED WITH GUANOSINE-5'-[BETA,GAMMA-METHYLENE] TRIPHOSPHATE AND MAGNESIUM | 3.6.5.2 |
| 1JAI | H-RAS P21 PROTEIN MUTANT G12P, COMPLEXED WITH GUANOSINE-5'-[BETA,GAMMA-METHYLENE] TRIPHOSPHATE AND MANGANESE | 3.6.5.2 |
| 1JAK | STREPTOMYCES PLICATUS BETA-N-ACETYLHEXOSAMINIDASE IN COMPLEX WITH (2R,3R,4S,5R)-2-ACETAMIDO-3,4-DIHYDROXY-5-HYDROXYMETHYL-PIPERIDINIUM CHLORIDE (IFG) | 3.2.1.52 |
| 1JAN | COMPLEX OF PRO-LEU-GLY-HYDROXYLAMINE WITH THE CATALYTIC DOMAIN OF MATRIX METALLO PROTEINASE-8 (PHE79 FORM) | 3.4.24.34 |
| 1JAO | COMPLEX OF 3-MERCAPTO-2-BENZYLPROPANOYL-ALA-GLY-NH2 WITH THE CATALYTIC DOMAIN OF MATRIX METALLO PROTEINASE-8 (MET80 FORM) | 3.4.24.34 |
| 1JAP | COMPLEX OF PRO-LEU-GLY-HYDROXYLAMINE WITH THE CATALYTIC DOMAIN OF MATRIX METALLO PROTEINASE-8 (MET80 FORM) | 3.4.24.34 |
| 1JAQ | COMPLEX OF 1-HYDROXYLAMINE-2-ISOBUTYLMALONYL-ALA-GLY-NH2 WITH THE CATALYTIC DOMAIN OF MATRIX METALLO PROTEINASE-8 (MET80 FORM) | 3.4.24.34 |
| 1JAW | AMINOPEPTIDASE P FROM E. COLI LOW PH FORM | 3.4.11.9 |
| 1JAZ | CRYSTAL STRUCTURE OF MONOCLINIC FORM OF D90E MUTANT OF ESCHERICHIA COLI ASPARAGINASE II | 3.5.1.1 |
| 1JB1 | LACTOBACILLUS CASEI HPRK/P BOUND TO PHOSPHATE | 2.7.1 3.1.3 2.7.11 2.7.4 |
| 1JBR | CRYSTAL STRUCTURE OF THE RIBOTOXIN RESTRICTOCIN AND A 31-MER SRD RNA INHIBITOR | 3.1.27 |
| 1JBS | CRYSTAL STRUCTURE OF RIBOTOXIN RESTRICTOCIN AND A 29-MER SRD RNA ANALOG | 3.1.27 |
| 1JBT | CRYSTAL STRUCTURE OF RIBOTOXIN RESTRICTOCIN COMPLEXED WITH A 29-MER SARCIN/RICIN DOMAIN RNA ANALOG | 3.1.27 |
| 1JBU | COAGULATION FACTOR VII ZYMOGEN (EGF2/PROTEASE) IN COMPLEX WITH INHIBITORY EXOSITE PEPTIDE A-183 | 3.4.21.21 |
| 1JCH | CRYSTAL STRUCTURE OF COLICIN E3 IN COMPLEX WITH ITS IMMUNITY PROTEIN | 3.1.21 3.1 |
| 1JD7 | CRYSTAL STRUCTURE ANALYSIS OF THE MUTANT K300R OF PSEUDOALTEROMONAS HALOPLANCTIS ALPHA-AMYLASE | 3.2.1.1 |
| 1JD9 | CRYSTAL STRUCTURE ANALYSIS OF THE MUTANT K300Q OF PSEUDOALTEROMONAS HALOPLANCTIS ALPHA-AMYLASE | 3.2.1.1 |
| 1JDA | MALTOTETRAOSE-FORMING EXO-AMYLASE | 3.2.1.60 |
| 1JDC | MUTANT (E219Q) MALTOTETRAOSE-FORMING EXO-AMYLASE COCRYSTALLIZED WITH MALTOTETRAOSE (CRYSTAL TYPE 1) | 3.2.1.60 |
| 1JDD | MUTANT (E219Q) MALTOTETRAOSE-FORMING EXO-AMYLASE COCRYSTALLIZED WITH MALTOTETRAOSE (CRYSTAL TYPE 2) | 3.2.1.60 |
| 1JEA | ALTERED TOPOLOGY AND FLEXIBILITY IN ENGINEERED SUBTILISIN | 3.4.21.62 |
| 1JEF | TURKEY LYSOZYME COMPLEX WITH (GLCNAC)3 | 3.2.1.17 |
| 1JEQ | CRYSTAL STRUCTURE OF THE KU HETERODIMER | 3.6.4 4.2.99 |
| 1JEW | CRYO-EM STRUCTURE OF COXSACKIEVIRUS B3(M STRAIN) WITH ITS CELLULAR RECEPTOR, COXSACKIEVIRUS AND ADENOVIRUS RECEPTOR (CAR). | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1JEY | CRYSTAL STRUCTURE OF THE KU HETERODIMER BOUND TO DNA | 3.6.4 4.2.99 |
| 1JF5 | CRYSTAL STRUCTURE OF THERMOACTINOMYCES VULGARIS R-47 ALPHA-AMYLASE 2 MUTANT F286A | 3.2.1.135 |
| 1JF6 | CRYSTAL STRUCTURE OF THERMOACTINOMYCES VULGARIS R-47 ALPHA-AMYLASE MUTANT F286Y | 3.2.1.135 |
| 1JF7 | HUMAN PTP1B CATALYTIC DOMAIN COMPLEXED WITH PNU177836 | 3.1.3.48 |
| 1JFD | STRUCTURE OF INORGANIC PYROPHOSPHATASE | 3.6.1.1 |
| 1JFH | STRUCTURE OF A PANCREATIC ALPHA-AMYLASE BOUND TO A SUBSTRATE ANALOGUE AT 2.03 ANGSTROM RESOLUTION | 3.2.1.1 |
| 1JFN | SOLUTION STRUCTURE OF HUMAN APOLIPOPROTEIN(A) KRINGLE IV TYPE 6 | 3.4.21 |
| 1JFX | CRYSTAL STRUCTURE OF THE BACTERIAL LYSOZYME FROM STREPTOMYCES COELICOLOR AT 1.65 A RESOLUTION | 3.2.1.17 |
| 1JFZ | CRYSTAL STRUCTURE OF MN(II)-COMPLEX OF RNASE III ENDONUCLEASE DOMAIN FROM AQUIFEX AEOLICUS AT 2.10 ANGSTROM RESOLUTION | 3.1.26.3 |
| 1JGM | HIGH RESOLUTION STRUCTURE OF THE CADMIUM-CONTAINING PHOSPHOTRIESTERASE FROM PSEUDOMONAS DIMINUTA | 3.1.8.1 |
| 1JH1 | CRYSTAL STRUCTURE OF MMP-8 COMPLEXED WITH A 6H-1,3,4-THIADIAZINE DERIVED INHIBITOR | 3.4.24.34 |
| 1JH6 | SEMI-REDUCED CYCLIC NUCLEOTIDE PHOSPHODIESTERASE FROM ARABIDOPSIS THALIANA | 3.1.4 |
| 1JH7 | SEMI-REDUCED INHIBITOR-BOUND CYCLIC NUCLEOTIDE PHOSPHODIESTERASE FROM ARABIDOPSIS THALIANA | 3.1.4 |
| 1JHC | LEXA S119A C-TERMINAL TRYPTIC FRAGMENT | 3.4.21.88 |
| 1JHE | LEXA L89P Q92W E152A K156A MUTANT | 3.4.21.88 |
| 1JHF | LEXA G85D MUTANT | 3.4.21.88 |
| 1JHH | LEXA S119A MUTANT | 3.4.21.88 |
| 1JHL | THREE-DIMENSIONAL STRUCTURE OF A HETEROCLITIC ANTIGEN-ANTIBODY CROSS-REACTION COMPLEX | 3.2.1.17 |
| 1JI1 | CRYSTAL STRUCTURE ANALYSIS OF THERMOACTINOMYCES VULGARIS R-47 ALPHA-AMYLASE 1 | 3.2.1.1 3.2.1.135 |
| 1JI2 | IMPROVED X-RAY STRUCTURE OF THERMOACTINOMYCES VULGARIS R-47 ALPHA-AMYLASE 2 | 3.2.1.135 |
| 1JI3 | CRYSTAL STRUCTURE OF THE FIRST THERMOSTABLE BACTERIAL LIPASE FROM BACILLUS STEAROTHERMOPHILUS | 3.1.1.3 |
| 1JIA | STRUCTURE OF A BASIC PHOSPHOLIPASE A2 FROM AGKISTRODON HALYS PALLAS AT 2.13A RESOLUTION | 3.1.1.4 |
| 1JIB | COMPLEX OF ALPHA-AMYLASE II (TVA II) FROM THERMOACTINOMYCES VULGARIS R-47 WITH MALTOTETRAOSE BASED ON A CRYSTAL SOAKED WITH MALTOHEXAOSE. | 3.2.1.135 |
| 1JIC | SOLUTION NMR STRUCTURE OF RECOMBINANT SSO7D WITH RNASE ACTIVITY, MINIMIZED AVERAGE STRUCTURE | 3.1.27 |
| 1JIM | STEREOSPECIFIC REACTION OF 3-METHOXY-4-CHLORO-7-AMINOISOCOUMARIN WITH CRYSTALLINE PORCINE PANCREATIC ELASTASE | 3.4.21.36 |
| 1JIR | CRYSTAL STRUCTURE OF TRYPSIN COMPLEX WITH AMYLAMINE IN CYCLOHEXANE | 3.4.21.4 |
| 1JIS | CRYSTAL STRUCTURE OF TETRAGONAL LYSOZYME GROWN AT PH 4.6 | 3.2.1.17 |
| 1JIT | CRYSTAL STRUCTURE OF TETRAGONAL LYSOZYME GROWN IN PRESENCE 30% TREHALOSE | 3.2.1.17 |
| 1JIY | CRYSTAL STRUCTURE OF TETRAGONAL LYSOZYME GROWN IN PRESENCE 20% SORBITOL | 3.2.1.17 |
| 1JIZ | CRYSTAL STRUCTURE ANALYSIS OF HUMAN MACROPHAGE ELASTASE MMP-12 | 3.4.24.65 |
| 1JJ0 | CRYSTAL STRUCTURE OF TETRAGONAL LYSOZYME GROWN IN PRESENCE OF 30% SUCROSE | 3.2.1.17 |
| 1JJ1 | CRYSTAL STRUCTURE OF ORTHORHOMBIC LYSOZYME GROWN AT PH 4.6 IN PRESENCE OF 5% SORBITOL | 3.2.1.17 |
| 1JJ3 | CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN AT PH 4.6 | 3.2.1.17 |
| 1JJ9 | CRYSTAL STRUCTURE OF MMP8-BARBITURATE COMPLEX REVEALS MECHANISM FOR COLLAGEN SUBSTRATE RECOGNITION | 3.4.24.34 |
| 1JJA | CRYSTAL STRUCTURE OF ORTHORHOMBIC FORM OF D90E MUTANT OF ESCHERICHIA COLI L-ASPARAGINASE II | 3.5.1.1 |
| 1JJB | A NEUTRAL MOLECULE IN CATION-BINDING SITE: SPECIFIC BINDING OF PEG-SH TO ACETYLCHOLINESTERASE FROM TORPEDO CALIFORNICA | 3.1.1.7 |
| 1JJE | IMP-1 METALLO BETA-LACTAMASE FROM PSEUDOMONAS AERUGINOSA IN COMPLEX WITH A BIARYL SUCCINIC ACID INHIBITOR (11) | 3.5.2.6 |
| 1JJF | STRUCTURAL BASIS FOR THE SUBSTRATE SPECIFICITY OF THE FERULOYL ESTERASE DOMAIN OF THE CELLULOSOMAL XYLANASE Z OF CLOSTRIDIUM THERMOCELLUM | 3.2.1.8 |
| 1JJI | THE CRYSTAL STRUCTURE OF A HYPER-THERMOPHILIC CARBOXYLESTERASE FROM THE ARCHAEON ARCHAEOGLOBUS FULGIDUS | 3.1.1.1 |
| 1JJR | THE THREE-DIMENSIONAL STRUCTURE OF THE C-TERMINAL DNA BINDING DOMAIN OF HUMAN KU70 | 3.6.4 4.2.99 |
| 1JJT | IMP-1 METALLO BETA-LACTAMASE FROM PSEUDOMONAS AERUGINOSA IN COMPLEX WITH A BIARYL SUCCINIC ACID INHIBITOR (1) | 3.5.2.6 |
| 1JJW | STRUCTURE OF HAEMOPHILUS INFLUENZAE HSLV PROTEIN AT 1.9 A RESOLUTION | 3.4.99 3.4.25.2 |
| 1JK3 | CRYSTAL STRUCTURE OF HUMAN MMP-12 (MACROPHAGE ELASTASE) AT TRUE ATOMIC RESOLUTION | 3.4.24.65 |
| 1JK7 | CRYSTAL STRUCTURE OF THE TUMOR-PROMOTER OKADAIC ACID BOUND TO PROTEIN PHOSPHATASE-1 | 3.1.3.16 |
| 1JKA | HUMAN LYSOZYME MUTANT WITH GLU 35 REPLACED BY ASP | 3.2.1.17 |
| 1JKB | HUMAN LYSOZYME MUTANT WITH GLU 35 REPLACED BY ALA | 3.2.1.17 |
| 1JKC | HUMAN LYSOZYME MUTANT WITH TRP 109 REPLACED BY PHE | 3.2.1.17 |
| 1JKD | HUMAN LYSOZYME MUTANT WITH TRP 109 REPLACED BY ALA | 3.2.1.17 |
| 1JKE | D-TYR TRNATYR DEACYLASE FROM ESCHERICHIA COLI | 3.1.1.96 |
| 1JKH | CRYSTAL STRUCTURE OF Y181C MUTANT HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH DMP-266(EFAVIRENZ) | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1JKN | SOLUTION STRUCTURE OF THE NUDIX ENZYME DIADENOSINE TETRAPHOSPHATE HYDROLASE FROM LUPINUS ANGUSTIFOLIUS COMPLEXED WITH ATP | 3.6.1.17 |
| 1JKY | CRYSTAL STRUCTURE OF THE ANTHRAX LETHAL FACTOR (LF): WILD-TYPE LF COMPLEXED WITH THE N-TERMINAL SEQUENCE OF MAPKK2 | 3.4.24.83 |
| 1JL1 | D10A E. COLI RIBONUCLEASE HI | 3.1.26.4 |
| 1JL2 | CRYSTAL STRUCTURE OF TCEO RNASE H-A CHIMERA COMBINING THE FOLDING CORE FROM T. THERMOPHILUS RNASE H AND THE REMAINING REGION OF E. COLI RNASE H | 3.1.26.4 |
| 1JL8 | COMPLEX OF ALPHA-AMYLASE II (TVA II) FROM THERMOACTINOMYCES VULGARIS R-47 WITH BETA-CYCLODEXTRIN BASED ON A CO-CRYSTALLIZATION WITH METHYL BETA-CYCLODEXTRIN | 3.2.1.135 |
| 1JLA | CRYSTAL STRUCTURE OF Y181C MUTANT HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH TNK-651 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1JLB | CRYSTAL STRUCTURE OF Y181C MUTANT HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH NEVIRAPINE | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1JLC | CRYSTAL STRUCTURE OF Y181C MUTANT HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH PETT-2 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1JLD | POTENT HIV PROTEASE INHIBITORS CONTAINING A NOVEL (HYDROXYETHYL)AMIDE ISOSTERE | 3.4.23.16 3.4.23.47 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1JLE | CRYSTAL STRUCTURE OF Y188C MUTANT HIV-1 REVERSE TRANSCRIPTASE | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1JLF | CRYSTAL STRUCTURE OF Y188C MUTANT HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH NEVIRAPINE | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1JLG | CRYSTAL STRUCTURE OF Y188C MUTANT HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH UC-781 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1JLN | CRYSTAL STRUCTURE OF THE CATALYTIC DOMAIN OF PROTEIN TYROSINE PHOSPHATASE PTP-SL/BR7 | 3.1.3.48 |
| 1JLQ | CRYSTAL STRUCTURE OF HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH 739W94 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1JMS | CRYSTAL STRUCTURE OF THE CATALYTIC CORE OF MURINE TERMINAL DEOXYNUCLEOTIDYL TRANSFERASE | 2.7.7.31 3.1.11 |
| 1JMY | TRUNCATED RECOMBINANT HUMAN BILE SALT STIMULATED LIPASE | 3.1.1.3 3.1.1.13 3.1.1.6 |
| 1JN4 | THE CRYSTAL STRUCTURE OF RIBONUCLEASE A IN COMPLEX WITH 2'-DEOXYURIDINE 3'-PYROPHOSPHATE (P'-5') ADENOSINE | 3.1.27.5 4.6.1.18 |
| 1JN9 | STRUCTURE OF PUTATIVE ASPARAGINASE ENCODED BY ESCHERICHIA COLI YBIK GENE | 3.5.1.1 3.4.19.5 |
| 1JOK | AVERAGED STRUCTURE FOR STAPHYLOCOCCAL NUCLEASE-H124L IN TERNARY COMPLEX WITH CA2+ AND THYMIDINE-3',5'-BISPHOSPHATE | 3.1.31.1 |
| 1JOO | AVERAGED STRUCTURE FOR UNLIGATED STAPHYLOCOCCAL NUCLEASE-H124L | 3.1.31.1 |
| 1JOQ | ENSEMBLE STRUCTURES FOR STAPHYLOCOCCAL NUCLEASE-H124L IN TERNARY COMPLEX WITH CA2+ AND THYMIDINE-3',5'-BISPHOSPHATE | 3.1.31.1 |
| 1JOR | ENSEMBLE STRUCTURES FOR UNLIGATED STAPHYLOCOCCAL NUCLEASE-H124L | 3.1.31.1 |
| 1JOU | CRYSTAL STRUCTURE OF NATIVE S195A THROMBIN WITH AN UNOCCUPIED ACTIVE SITE | 3.4.21.5 |
| 1JP4 | CRYSTAL STRUCTURE OF AN ENZYME DISPLAYING BOTH INOSITOL-POLYPHOSPHATE 1-PHOSPHATASE AND 3'-PHOSPHOADENOSINE-5'-PHOSPHATE PHOSPHATASE ACTIVITIES | 3.1.3.7 3.1.3.57 |
| 1JPO | LOW TEMPERATURE ORTHORHOMBIC LYSOZYME | 3.2.1.17 |
| 1JQ6 | HUMAN CYTOMEGALOVIRUS PROTEASE DIMER-INTERFACE MUTANT, S225Y | 3.4.21.97 |
| 1JQ7 | HCMV PROTEASE DIMER-INTERFACE MUTANT, S225Y COMPLEXED TO INHIBITOR BILC 408 | 3.4.21.97 |
| 1JQ8 | DESIGN OF SPECIFIC INHIBITORS OF PHOSPHOLIPASE A2: CRYSTAL STRUCTURE OF A COMPLEX FORMED BETWEEN PHOSPHOLIPASE A2 FROM DABOIA RUSSELLI PULCHELLA AND A DESIGNED PENTAPEPTIDE LEU-ALA-ILE-TYR-SER AT 2.0 RESOLUTION | 3.1.1.4 |
| 1JQ9 | CRYSTAL STRUCTURE OF A COMPLEX FORMED BETWEEN PHOSPHOLIPASE A2 FROM DABOIA RUSSELLI PULCHELLA AND A DESIGNED PENTAPEPTIDE PHE-LEU-SER-TYR-LYS AT 1.8 RESOLUTION | 3.1.1.4 |
| 1JQG | CRYSTAL STRUCTURE OF THE CARBOXYPEPTIDASE A FROM HELICOVERPA ARMIGERA | 3.4.17.1 |
| 1JQP | DIPEPTIDYL PEPTIDASE I (CATHEPSIN C), A TETRAMERIC CYSTEINE PROTEASE OF THE PAPAIN FAMILY | 3.4.14.1 |
| 1JQU | ARE CARBOXY TERMINII OF HELICES CODED BY THE LOCAL SEQUENCE OR BY TERTIARY STRUCTURE CONTACTS | 3.2.1.17 |
| 1JR6 | SOLUTION STRUCTURE OF AN ENGINEERED ARGININE-RICH SUBDOMAIN 2 OF THE HEPATITIS C VIRUS NS3 RNA HELICASE | 3.4.21.98 3.4.22 3.6.1.15 3.6.4.13 2.7.7.48 |
| 1JRL | CRYSTAL STRUCTURE OF E. COLI LYSOPHOSPHOLIASE L1/ACYL-COA THIOESTERASE I/PROTEASE I L109P MUTANT | 3.1.2 3.1.1.5 3.1.2.2 3.1.1.2 3.1.2.14 3.4.21 |
| 1JRS | HEMIACETAL COMPLEX BETWEEN LEUPEPTIN AND TRYPSIN | 3.4.21.4 |
| 1JRT | HEMIACETAL COMPLEX BETWEEN LEUPEPTIN AND TRYPSIN | 3.4.21.4 |
| 1JS0 | CRYSTAL STRUCTURE OF 3D DOMAIN-SWAPPED RNASE A MINOR TRIMER | 3.1.27.5 4.6.1.18 |
| 1JS4 | ENDO/EXOCELLULASE:CELLOBIOSE FROM THERMOMONOSPORA | 3.2.1.4 |
| 1JSE | FULL-MATRIX LEAST-SQUARES REFINEMENT OF TURKEY LYSOZYME | 3.2.1.17 |
| 1JSF | FULL-MATRIX LEAST-SQUARES REFINEMENT OF HUMAN LYSOZYME | 3.2.1.17 |
| 1JSL | CRYSTAL STRUCTURE OF ERWINIA CHRYSANTHEMI L-ASPARAGINASE COMPLEXED WITH 6-HYDROXY-D-NORLEUCINE | 3.5.1.1 |
| 1JSR | CRYSTAL STRUCTURE OF ERWINIA CHRYSANTHEMI L-ASPARAGINASE COMPLEXED WITH 6-HYDROXY-L-NORLEUCINE | 3.5.1.1 |
| 1JT1 | FEZ-1 METALLO-BETA-LACTAMASE FROM LEGIONELLA GORMANII MODELLED WITH D-CAPTOPRIL | 3.5.2.6 |
| 1JT2 | STRUCTURAL BASIS FOR THE SUBSTRATE SPECIFICITY OF THE FERUL DOMAIN OF THE CELLULOSOMAL XYLANASE Z FROM C. THERMOCELLUM | 3.2.1.8 |
| 1JT9 | STRUCTURE OF THE MUTANT F174A T FORM OF THE GLUCOSAMINE-6-PHOSPHATE DEAMINASE FROM E.COLI | 3.5.99.6 |
| 1JTD | CRYSTAL STRUCTURE OF BETA-LACTAMASE INHIBITOR PROTEIN-II IN COMPLEX WITH TEM-1 BETA-LACTAMASE | 3.5.2.6 |
| 1JTG | CRYSTAL STRUCTURE OF TEM-1 BETA-LACTAMASE / BETA-LACTAMASE INHIBITOR PROTEIN COMPLEX | 3.5.2.6 |
| 1JTK | CRYSTAL STRUCTURE OF CYTIDINE DEAMINASE FROM BACILLUS SUBTILIS IN COMPLEX WITH THE INHIBITOR TETRAHYDRODEOXYURIDINE | 3.5.4.5 |
| 1JTM | ALTERNATIVE STRUCTURES OF A SEQUENCE EXTENDED T4 LYSOZYME SHOW THAT THE HIGHLY CONSERVED BETA-SHEET HAS WEAK INTRINSIC FOLDING PROPENSITY | 3.2.1.17 |
| 1JTN | ALTERNATIVE STRUCTURES OF A SEQUENCE EXTENDED T4 LYSOZYME SHOW THAT THE HIGHLY CONSERVED BETA-SHEET REGION HAS WEAK INTRINSIC FOLDING PROPENSITY | 3.2.1.17 |
| 1JU3 | BACTERIAL COCAINE ESTERASE COMPLEX WITH TRANSITION STATE ANALOG | 3.1.1.84 |
| 1JU4 | BACTERIAL COCAINE ESTERASE COMPLEX WITH PRODUCT | 3.1.1.84 |
| 1JUD | L-2-HALOACID DEHALOGENASE | 3.8.1.2 |
| 1JUG | LYSOZYME FROM ECHIDNA MILK (TACHYGLOSSUS ACULEATUS) | 3.2.1.17 |
| 1JVA | CRYSTAL STRUCTURE OF THE VMA1-DERIVED ENDONUCLEASE BEARING THE N AND C EXTEIN PROPEPTIDES | 7.1.2.2 3.1 |
| 1JVJ | CRYSTAL STRUCTURE OF N132A MUTANT OF TEM-1 BETA-LACTAMASE IN COMPLEX WITH A N-FORMIMIDOYL-THIENAMYCINE | 3.5.2.6 |
| 1JVN | CRYSTAL STRUCTURE OF IMIDAZOLE GLYCEROL PHOSPHATE SYNTHASE: A TUNNEL THROUGH A (BETA/ALPHA)8 BARREL JOINS TWO ACTIVE SITES | 2.4.2 4.3.2.10 3.5.1.2 |
| 1JVR | STRUCTURE OF THE HTLV-II MATRIX PROTEIN, NMR, 20 STRUCTURES | 3.4.23 2.7.7.49 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1JVT | CRYSTAL STRUCTURE OF RIBONUCLEASE A (LIGAND-FREE FORM) | 3.1.27.5 4.6.1.18 |
| 1JVU | CRYSTAL STRUCTURE OF RIBONUCLEASE A (COMPLEXED FORM) | 3.1.27.5 4.6.1.18 |
| 1JVV | CRYSTAL STRUCTURE OF RIBONUCLEASE A (RETRO-SOAKED FORM) | 3.1.27.5 4.6.1.18 |
| 1JVZ | STRUCTURE OF CEPHALOSPORIN ACYLASE IN COMPLEX WITH GLUTARYL-7-AMINOCEPHALOSPORANIC ACID | 3.5.1.93 |
| 1JW0 | STRUCTURE OF CEPHALOSPORIN ACYLASE IN COMPLEX WITH GLUTARATE | 3.5.1.93 |
| 1JW1 | CRYSTALLIZATION AND STRUCTURE DETERMINATION OF GOAT LACTOFERRIN AT 4.0 RESOLUTION: A NEW FORM OF PACKING IN LACTOFERRINS WITH A HIGH SOLVENT CONTENT IN CRYSTALS | 3.4.21 |
| 1JWE | NMR STRUCTURE OF THE N-TERMINAL DOMAIN OF E. COLI DNAB HELICASE | 3.6.1 3.6.4.12 |
| 1JWP | STRUCTURE OF M182T MUTANT OF TEM-1 BETA-LACTAMASE | 3.5.2.6 |
| 1JWQ | STRUCTURE OF THE CATALYTIC DOMAIN OF CWLV, N-ACETYLMURAMOYL-L-ALANINE AMIDASE FROM BACILLUS(PAENIBACILLUS) POLYMYXA VAR.COLISTINUS | 3.5.1.28 |
| 1JWR | CRYSTAL STRUCTURE OF HUMAN LYSOZYME AT 100 K | 3.2.1.17 |
| 1JWT | CRYSTAL STRUCTURE OF THROMBIN IN COMPLEX WITH A NOVEL BICYCLIC LACTAM INHIBITOR | 3.4.21.5 |
| 1JWV | CRYSTAL STRUCTURE OF G238A MUTANT OF TEM-1 BETA-LACTAMASE IN COMPLEX WITH A BORONIC ACID INHIBITOR (SEFB4) | 3.5.2.6 |
| 1JWW | NMR CHARACTERIZATION OF THE N-TERMINAL DOMAIN OF A POTENTIAL COPPER-TRANSLOCATING P-TYPE ATPASE FROM BACILLUS SUBTILIS | 3.6.3.4 7.2.2.8 |
| 1JWZ | CRYSTAL STRUCTURE OF TEM-64 BETA-LACTAMASE IN COMPLEX WITH A BORONIC ACID INHIBITOR (105) | 3.5.2.6 |
| 1JX9 | PENICILLIN ACYLASE, MUTANT | 3.5.1.11 |
| 1JXB | I53A, A POINT MUTANT OF THE CYSTEINE-FREE VARIANT OF E. COLI RNASE HI | 3.1.26.4 |
| 1JXJ | ROLE OF MOBILE LOOP IN THE MECHANISM OF HUMAN SALIVARY AMYLASE | 3.2.1.1 |
| 1JXK | ROLE OF ETHE MOBILE LOOP IN THE MEHANISM OF HUMAN SALIVARY AMYLASE | 3.2.1.1 |
| 1JXP | BK STRAIN HEPATITIS C VIRUS (HCV) NS3-NS4A | 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 2.7.7.48 |
| 1JXQ | STRUCTURE OF CLEAVED, CARD DOMAIN DELETED CASPASE-9 | 3.4.22 3.4.22.62 |
| 1JXZ | STRUCTURE OF THE H90Q MUTANT OF 4-CHLOROBENZOYL-COENZYME A DEHALOGENASE COMPLEXED WITH 4-HYDROXYBENZOYL-COENZYME A (PRODUCT) | 3.8.1.6 3.8.1.7 |
| 1JY1 | CRYSTAL STRUCTURE OF HUMAN TYROSYL-DNA PHOSPHODIESTERASE (TDP1) | 3.1.4 |
| 1JYM | CRYSTALS OF PEPTIDE DEFORMYLASE FROM PLASMODIUM FALCIPARUM WITH TEN SUBUNITS PER ASYMMETRIC UNIT REVEAL CRITICAL CHARACTERISTICS OF THE ACTIVE SITE FOR DRUG DESIGN | 3.5.1.31 3.5.1.88 |
| 1JYS | CRYSTAL STRUCTURE OF E. COLI MTA/ADOHCY NUCLEOSIDASE | 3.2.2.9 |
| 1JZ3 | E. COLI (LACZ) BETA-GALACTOSIDASE-TRAPPED 2-DEOXY-GALACTOSYL ENZYME INTERMEDIATE | 3.2.1.23 |
| 1JZ6 | E. COLI (LACZ) BETA-GALACTOSIDASE IN COMPLEX WITH GALACTO-TETRAZOLE | 3.2.1.23 |
| 1K07 | NATIVE FEZ-1 METALLO-BETA-LACTAMASE FROM LEGIONELLA GORMANII | 3.5.2.6 |
| 1K0Z | CRYSTAL STRUCTURE OF THE PVUII ENDONUCLEASE WITH PR3+ AND SO4 IONS BOUND IN THE ACTIVE SITE AT 2.05A. | 3.1.21.4 |
| 1K1E | STRUCTURE OF THE COBALT-BOUND FORM OF THE DEOXY-D-MANNOSE-OCTULOSONATE 8-PHOSPHATE PHOSPHATASE (YRBI) FROM HAEMOPHILUS INFLUENZAE (HI1679) | 3.1.3 3.1.3.45 |
| 1K1I | BOVINE TRYPSIN-INHIBITOR COMPLEX | 3.4.21.4 |
| 1K1J | BOVINE TRYPSIN-INHIBITOR COMPLEX | 3.4.21.4 |
| 1K1L | BOVINE TRYPSIN-INHIBITOR COMPLEX | 3.4.21.4 |
| 1K1M | BOVINE TRYPSIN-INHIBITOR COMPLEX | 3.4.21.4 |
| 1K1N | BOVINE TRYPSIN-INHIBITOR COMPLEX | 3.4.21.4 |
| 1K1O | BOVINE TRYPSIN-INHIBITOR COMPLEX | 3.4.21.4 |
| 1K1P | BOVINE TRYPSIN-INHIBITOR COMPLEX | 3.4.21.4 |
| 1K1T | COMBINING MUTATIONS IN HIV-1 PROTEASE TO UNDERSTAND MECHANISMS OF RESISTANCE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1K1U | COMBINING MUTATIONS IN HIV-1 PROTEASE TO UNDERSTAND MECHANISMS OF RESISTANCE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1K20 | INORGANIC PYROPHOSPHATASE (FAMILY II) FROM STREPTOCOCCUS GORDONII AT 1.5 A RESOLUTION | 3.6.1.1 |
| 1K21 | HUMAN THROMBIN-INHIBITOR COMPLEX | 3.4.21.5 |
| 1K22 | HUMAN THROMBIN-INHIBITOR COMPLEX | 3.4.21.5 |
| 1K23 | INORGANIC PYROPHOSPHATASE (FAMILY II) FROM BACILLUS SUBTILIS | 3.6.1.1 |
| 1K28 | THE STRUCTURE OF THE BACTERIOPHAGE T4 CELL-PUNCTURING DEVICE | 3.2.1.17 |
| 1K2A | MODIFIED FORM OF EOSINOPHIL-DERIVED NEUROTOXIN | 3.1.27.5 4.6.1.18 |
| 1K2B | COMBINING MUTATIONS IN HIV-1 PROTEASE TO UNDERSTAND MECHANISMS OF RESISTANCE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1K2C | COMBINING MUTATIONS IN HIV-1 PROTEASE TO UNDERSTAND MECHANISMS OF RESISTANCE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1K2I | CRYSTAL STRUCTURE OF GAMMA-CHYMOTRYPSIN IN COMPLEX WITH 7-HYDROXYCOUMARIN | 3.4.21.1 |
| 1K2X | CRYSTAL STRUCTURE OF PUTATIVE ASPARAGINASE ENCODED BY ESCHERICHIA COLI YBIK GENE | 3.5.1.1 3.4.19.5 |
| 1K38 | CRYSTAL STRUCTURE OF THE CLASS D BETA-LACTAMASE OXA-2 | 3.5.2.6 |
| 1K3B | CRYSTAL STRUCTURE OF HUMAN DIPEPTIDYL PEPTIDASE I (CATHEPSIN C): EXCLUSION DOMAIN ADDED TO AN ENDOPEPTIDASE FRAMEWORK CREATES THE MACHINE FOR ACTIVATION OF GRANULAR SERINE PROTEASES | 3.4.14.1 |
| 1K42 | THE SOLUTION STRUCTURE OF THE CBM4-2 CARBOHYDRATE BINDING MODULE FROM A THERMOSTABLE RHODOTHERMUS MARINUS XYLANASE. | 3.2.1.8 |
| 1K45 | THE SOLUTION STRUCTURE OF THE CBM4-2 CARBOHYDRATE BINDING MODULE FROM A THERMOSTABLE RHODOTHERMUS MARINUS XYLANASE. | 3.2.1.8 |
| 1K46 | CRYSTAL STRUCTURE OF THE TYPE III SECRETORY DOMAIN OF YERSINIA YOPH REVEALS A DOMAIN-SWAPPED DIMER | 3.1.3.48 |
| 1K4E | CRYSTAL STRUCTURE OF THE CLASS D BETA-LACTAMASES OXA-10 DETERMINED BY MAD PHASING WITH SELENOMETHIONINE | 3.5.2.6 |
| 1K4F | CRYSTAL STRUCTURE OF THE CLASS D BETA-LACTAMASE OXA-10 AT 1.6 A RESOLUTION | 3.5.2.6 |
| 1K4R | STRUCTURE OF DENGUE VIRUS | 3.4.21.91 3.6.1.15 3.6.4.13 |
| 1K4Y | CRYSTAL STRUCTURE OF RABBIT LIVER CARBOXYLESTERASE IN COMPLEX WITH 4-PIPERIDINO-PIPERIDINE | 3.1.1.1 |
| 1K54 | OXA-10 CLASS D BETA-LACTAMASE PARTIALLY ACYLATED WITH REACTED 6BETA-(1-HYDROXY-1-METHYLETHYL) PENICILLANIC ACID | 3.5.2.6 |
| 1K55 | OXA 10 CLASS D BETA-LACTAMASE AT PH 7.5 | 3.5.2.6 |
| 1K56 | OXA 10 CLASS D BETA-LACTAMASE AT PH 6.5 | 3.5.2.6 |
| 1K57 | OXA 10 CLASS D BETA-LACTAMASE AT PH 6.0 | 3.5.2.6 |
| 1K58 | CRYSTAL STRUCTURE OF HUMAN ANGIOGENIN VARIANT D116H | 3.1.27 |
| 1K59 | CRYSTAL STRUCTURE OF HUMAN ANGIOGENIN VARIANT Q117G | 3.1.27 |
| 1K5A | CRYSTAL STRUCTURE OF HUMAN ANGIOGENIN DOUBLE VARIANT I119A/F120A | 3.1.27 |
| 1K5B | CRYSTAL STRUCTURE OF HUMAN ANGIOGENIN VARIANT DES(121-123) | 3.1.27 |
| 1K5C | ENDOPOLYGALACTURONASE I FROM STEREUM PURPUREUM AT 0.96 A RESOLUTION | 3.2.1.15 |
| 1K5M | CRYSTAL STRUCTURE OF A HUMAN RHINOVIRUS TYPE 14:HUMAN IMMUNODEFICIENCY VIRUS TYPE 1 V3 LOOP CHIMERIC VIRUS MN-III-2 | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1K5P | HYDROLYTIC HALOALKANE DEHALOGENASE LINB FROM SPHINGOMONAS PAUCIMOBILIS UT26 AT 1.8A RESOLUTION | 3.8.1.5 |
| 1K5Q | PENICILLIN ACYLASE, MUTANT COMPLEXED WITH PAA | 3.5.1.11 |
| 1K5S | PENICILLIN ACYLASE, MUTANT COMPLEXED WITH PPA | 3.5.1.11 |
| 1K63 | COMPLEX OF HYDROLYTIC HALOALKANE DEHALOGENASE LINB FROM SPHINGOMONAS PAUCIMOBILIS WITH UT26 2-BROMO-2-PROPENE-1-OL AT 1.8A RESOLUTION | 3.8.1.5 |
| 1K6A | STRUCTURAL STUDIES ON THE MOBILITY IN THE ACTIVE SITE OF THE THERMOASCUS AURANTIACUS XYLANASE I | 3.2.1.8 |
| 1K6C | LACK OF SYNERGY FOR INHIBITORS TARGETING A MULTI-DRUG RESISTANT HIV-1 PROTEASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1K6E | COMPLEX OF HYDROLYTIC HALOALKANE DEHALOGENASE LINB FROM SPHINGOMONAS PAUCIMOBILIS UT26 WITH 1,2-PROPANEDIOL (PRODUCT OF DEHALOGENATION OF 1,2-DIBROMOPROPANE) AT 1.85A | 3.8.1.5 |
| 1K6M | CRYSTAL STRUCTURE OF HUMAN LIVER 6-PHOSPHOFRUCTO-2-KINASE/FRUCTOSE-2,6-BISPHOSPHATASE | 2.7.1.105 3.1.3.46 |
| 1K6P | LACK OF SYNERGY FOR INHIBITORS TARGETING A MULTI-DRUG RESISTANT HIV-1 PROTEASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1K6R | STRUCTURE OF THE CLASS D BETA-LACTAMASE OXA-10 IN COMPLEX WITH MOXALACTAM | 3.5.2.6 |
| 1K6S | STRUCTURE OF THE CLASS D BETA-LACTAMASE OXA-10 IN COMPLEX WITH A PHENYLBORONIC ACID | 3.5.2.6 |
| 1K6T | LACK OF SYNERGY FOR INHIBITORS TARGETING A MULTI-DRUG RESISTANT HIV-1 PROTEASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1K6V | LACK OF SYNERGY FOR INHIBITORS TARGETING A MULTI-DRUG RESISTANT HIV-1 PROTEASE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1K6W | THE STRUCTURE OF ESCHERICHIA COLI CYTOSINE DEAMINASE | 3.5.4.1 3.5.4 |
| 1K6Y | CRYSTAL STRUCTURE OF A TWO-DOMAIN FRAGMENT OF HIV-1 INTEGRASE | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1K70 | THE STRUCTURE OF ESCHERICHIA COLI CYTOSINE DEAMINASE BOUND TO 4-HYDROXY-3,4-DIHYDRO-1H-PYRIMIDIN-2-ONE | 3.5.4.1 3.5.4 |
| 1K72 | THE X-RAY CRYSTAL STRUCTURE OF CEL9G COMPLEXED WITH CELLOTRIOSE | 3.2.1.4 |
| 1K7C | RHAMNOGALACTURONAN ACETYLESTERASE WITH SEVEN N-LINKED CARBOHYDRATE RESIDUES DISTRIBUTED AT TWO N-GLYCOSYLATION SITES REFINED AT 1.12 A RESOLUTION | 3.1.1.86 |
| 1K7D | PENICILLIN ACYLASE WITH PHENYL PROPRIONIC ACID | 3.5.1.11 |
| 1K7G | PRTC FROM ERWINIA CHRYSANTHEMI | 3.4.24 3.4.24.40 |
| 1K7H | CRYSTAL STRUCTURE OF SHRIMP ALKALINE PHOSPHATASE | 3.1.3.1 |
| 1K7I | PRTC FROM ERWINIA CHRYSANTHEMI: Y228F MUTANT | 3.4.24 3.4.24.40 |
| 1K7K | CRYSTAL STRUCTURE OF RDGB- INOSINE TRIPHOSPHATE PYROPHOSPHATASE FROM E. COLI | 3.6.1.66 |
| 1K7Q | PRTC FROM ERWINIA CHRYSANTHEMI: E189A MUTANT | 3.4.24 3.4.24.40 |
| 1K82 | CRYSTAL STRUCTURE OF E.COLI FORMAMIDOPYRIMIDINE-DNA GLYCOSYLASE (FPG) COVALENTLY TRAPPED WITH DNA | 3.2.2.23 4.2.99.18 |
| 1K85 | SOLUTION STRUCTURE OF THE FIBRONECTIN TYPE III DOMAIN FROM BACILLUS CIRCULANS WL-12 CHITINASE A1. | 3.2.1.14 |
| 1K86 | CRYSTAL STRUCTURE OF CASPASE-7 | 3.4.22 3.4.22.60 |
| 1K88 | CRYSTAL STRUCTURE OF PROCASPASE-7 | 3.4.22 3.4.22.60 |
| 1K8Q | CRYSTAL STRUCTURE OF DOG GASTRIC LIPASE IN COMPLEX WITH A PHOSPHONATE INHIBITOR | 3.1.1.3 |
| 1K8R | CRYSTAL STRUCTURE OF RAS-BRY2RBD COMPLEX | 3.6.5.2 |
| 1K9D | THE 1.7 A CRYSTAL STRUCTURE OF ALPHA-D-GLUCURONIDASE, A FAMILY-67 GLYCOSIDE HYDROLASE FROM BACILLUS STEAROTHERMOPHILUS T-1 | 3.2.1.139 3.2.1.131 |
| 1K9E | CRYSTAL STRUCTURE OF A MUTATED FAMILY-67 ALPHA-D-GLUCURONIDASE (E285N) FROM BACILLUS STEAROTHERMOPHILUS T-6, COMPLEXED WITH 4-O-METHYL-GLUCURONIC ACID | 3.2.1.139 3.2.1.131 |
| 1K9F | CRYSTAL STRUCTURE OF A MUTATED FAMILY-67 ALPHA-D-GLUCURONIDASE (E285N) FROM BACILLUS STEAROTHERMOPHILUS T-6, COMPLEXED WITH ALDOTETRAOURONIC ACID | 3.2.1.139 3.2.1.131 |
| 1K9O | CRYSTAL STRUCTURE OF MICHAELIS SERPIN-TRYPSIN COMPLEX | 3.4.21.4 |
| 1K9T | CHITINASE A COMPLEXED WITH TETRA-N-ACETYLCHITOTRIOSE | 3.2.1.14 |
| 1K9V | STRUCTURAL EVIDENCE FOR AMMONIA TUNELLING ACROSS THE (BETA-ALPHA)8-BARREL OF THE IMIDAZOLE GLYCEROL PHOSPHATE SYNTHASE BIENZYME COMPLEX | 2.4.2 4.3.2.10 3.5.1.2 |
| 1K9X | STRUCTURE OF PYROCOCCUS FURIOSUS CARBOXYPEPTIDASE APO-YB | 3.4.17.19 |
| 1K9Y | THE PAPASE HAL2P COMPLEXED WITH MAGNESIUM IONS AND REACTION PRODUCTS: AMP AND INORGANIC PHOSPHATE | 3.1.3.7 |
| 1K9Z | THE PAPASE HAL2P COMPLEXED WITH ZINC IONS | 3.1.3.7 |
| 1KA0 | THE PAPASE HAL2P COMPLEXED WITH A SODIUM ION AND THE REACTION PRODUCT AMP | 3.1.3.7 |
| 1KA1 | THE PAPASE HAL2P COMPLEXED WITH CALCIUM AND MAGNESIUM IONS AND REACTION SUBSTRATE: PAP | 3.1.3.7 |
| 1KA8 | CRYSTAL STRUCTURE OF THE PHAGE P4 ORIGIN-BINDING DOMAIN | 2.7.7 3.6.4.12 |
| 1KAA | STRESS AND STRAIN IN STAPHYLOCOCCAL NUCLEASE | 3.1.31.1 |
| 1KAB | STRESS AND STRAIN IN STAPHYLOCOCCAL NUCLEASE | 3.1.31.1 |
| 1KAK | HUMAN TYROSINE PHOSPHATASE 1B COMPLEXED WITH AN INHIBITOR | 3.1.3.48 |
| 1KAO | CRYSTAL STRUCTURE OF THE SMALL G PROTEIN RAP2A WITH GDP | 3.6.5.2 |
| 1KAV | HUMAN TYROSINE PHOSPHATASE 1B COMPLEXED WITH AN INHIBITOR | 3.1.3.48 |
| 1KAX | 70KD HEAT SHOCK COGNATE PROTEIN ATPASE DOMAIN, K71M MUTANT | 3.6.1.3 |
| 1KAY | 70KD HEAT SHOCK COGNATE PROTEIN ATPASE DOMAIN, K71A MUTANT | 3.6.1.3 |
| 1KAZ | 70KD HEAT SHOCK COGNATE PROTEIN ATPASE DOMAIN, K71E MUTANT | 3.6.1.3 |
| 1KB3 | THREE DIMENSIONAL STRUCTURE ANALYSIS OF THE R195A VARIANT OF HUMAN PANCREATIC ALPHA AMYLASE | 3.2.1.1 |
| 1KBB | MECHANISTIC ANALYSES OF CATALYSIS IN HUMAN PANCREATIC ALPHA-AMYLASE: DETAILED KINETIC AND STRUCTURAL STUDIES OF MUTANTS OF THREE CONSERVED CARBOXYLIC ACIDS | 3.2.1.1 |
| 1KBC | PROCARBOXYPEPTIDASE TERNARY COMPLEX | 3.4.24.34 |
| 1KBK | MECHANISTIC ANALYSES OF CATALYSIS IN HUMAN PANCREATIC ALPHA-AMYLASE: DETAILED KINETIC AND STRUCTURAL STUDIES OF MUTANTS OF THREE CONSERVED CARBOXYLIC ACIDS | 3.2.1.1 |
| 1KBP | KIDNEY BEAN PURPLE ACID PHOSPHATASE | 3.1.3.2 |
| 1KC6 | HINCII BOUND TO COGNATE DNA | 3.1.21.4 |
| 1KCC | ENDOPOLYGALACTURONASE I FROM STEREUM PURPUREUM COMPLEXED WITH A GALACTURONATE AT 1.00 A RESOLUTION. | 3.2.1.15 |
| 1KCD | ENDOPOLYGALACTURONASE I FROM STEREUM PURPUREUM COMPLEXED WITH TWO GALACTURONATE AT 1.15 A RESOLUTION. | 3.2.1.15 |
| 1KCF | CRYSTAL STRUCTURE OF THE YEAST MITOCHONDRIAL HOLLIDAY JUNCTION RESOLVASE, YDC2 | 3.1 3.1.22.4 |
| 1KDA | STABILIZATION OF A STRAINED PROTEIN LOOP CONFORMATION THROUGH PROTEIN ENGINEERING | 3.1.31.1 |
| 1KDB | STABILIZATION OF A STRAINED PROTEIN LOOP CONFORMATION THROUGH PROTEIN ENGINEERING | 3.1.31.1 |
| 1KDC | STABILIZATION OF A STRAINED PROTEIN LOOP CONFORMATION THROUGH PROTEIN ENGINEERING | 3.1.31.1 |
| 1KDH | BINARY COMPLEX OF MURINE TERMINAL DEOXYNUCLEOTIDYL TRANSFERASE WITH A PRIMER SINGLE STRANDED DNA | 2.7.7.31 3.1.11 |
| 1KDQ | CRYSTAL STRUCTURE ANALYSIS OF THE MUTANT S189D RAT CHYMOTRYPSIN | 3.4.21.1 |
| 1KDS | X-RAY CRYSTAL STRUCTURE OF AMPC BETA-LACTAMASE FROM E. COLI IN COMPLEX WITH THE INHIBITOR 3-NITROPHENYLBORONIC ACID | 3.5.2.6 |
| 1KDU | SEQUENTIAL 1H NMR ASSIGNMENTS AND SECONDARY STRUCTURE OF THE KRINGLE DOMAIN FROM UROKINASE | 3.4.21.73 |
| 1KDW | X-RAY CRYSTAL STRUCTURE OF AMPC BETA-LACTAMASE FROM E. COLI IN COMPLEX WITH THE INHIBITOR 4-CARBOXYPHENYLBORONIC ACID | 3.5.2.6 |
| 1KE0 | X-RAY CRYSTAL STRUCTURE OF AMPC BETA-LACTAMASE FROM E. COLI IN COMPLEX WITH THE INHIBITOR 4-(CARBOXYVIN-2-YL)PHENYLBORONIC ACID | 3.5.2.6 |
| 1KE3 | X-RAY CRYSTAL STRUCTURE OF AMPC BETA-LACTAMASE FROM E. COLI IN COMPLEX WITH THE INHIBITOR 4,4'-BIPHENYLDIBORONIC ACID | 3.5.2.6 |
| 1KE4 | X-RAY CRYSTAL STRUCTURE OF AMPC BETA-LACTAMASE FROM E. COLI | 3.5.2.6 |
| 1KEA | STRUCTURE OF A THERMOSTABLE THYMINE-DNA GLYCOSYLASE | 3.2.2 3.2.2.29 |
| 1KEC | PENICILLIN ACYLASE MUTANT WITH PHENYL PROPRIONIC ACID | 3.5.1.11 |
| 1KEH | PRECURSOR STRUCTURE OF CEPHALOSPORIN ACYLASE | 3.5.1 3.5.1.93 |
| 1KEI | THERMOLYSIN (SUBSTRATE-FREE) | 3.4.24.27 |
| 1KEJ | CRYSTAL STRUCTURE OF MURINE TERMINAL DEOXYNUCLEOTIDYL TRANSFERASE COMPLEXED WITH DDATP | 2.7.7.31 3.1.11 |
| 1KEY | CRYSTAL STRUCTURE OF MOUSE TESTIS/BRAIN RNA-BINDING PROTEIN (TB-RBP) | 3.1 |
| 1KF2 | ATOMIC RESOLUTION STRUCTURE OF RNASE A AT PH 5.2 | 3.1.27.5 4.6.1.18 |
| 1KF3 | ATOMIC RESOLUTION STRUCTURE OF RNASE A AT PH 5.9 | 3.1.27.5 4.6.1.18 |
| 1KF4 | ATOMIC RESOLUTION STRUCTURE OF RNASE A AT PH 6.3 | 3.1.27.5 4.6.1.18 |
| 1KF5 | ATOMIC RESOLUTION STRUCTURE OF RNASE A AT PH 7.1 | 3.1.27.5 4.6.1.18 |
| 1KF7 | ATOMIC RESOLUTION STRUCTURE OF RNASE A AT PH 8.0 | 3.1.27.5 4.6.1.18 |
| 1KF8 | ATOMIC RESOLUTION STRUCTURE OF RNASE A AT PH 8.8 | 3.1.27.5 4.6.1.18 |
| 1KFG | THE X-RAY CRYSTAL STRUCTURE OF CEL9G FROM CLOSTRIDIUM CELLULOLYTICUM COMPLEXED WITH A THIO-OLIGOSACCHARIDE INHIBITOR | 3.2.1.4 |
| 1KFU | CRYSTAL STRUCTURE OF HUMAN M-CALPAIN FORM II | 3.4.22.53 |
| 1KFV | CRYSTAL STRUCTURE OF LACTOCOCCUS LACTIS FORMAMIDO-PYRIMIDINE DNA GLYCOSYLASE (ALIAS FPG OR MUTM) NON COVALENTLY BOUND TO AN AP SITE CONTAINING DNA. | 3.2.2.23 4.2.99.18 |
| 1KFW | STRUCTURE OF CATALYTIC DOMAIN OF PSYCHROPHILIC CHITINASE B FROM ARTHROBACTER TAD20 | 3.2.1.14 |
| 1KFX | CRYSTAL STRUCTURE OF HUMAN M-CALPAIN FORM I | 3.4.22.53 |
| 1KG2 | CRYSTAL STRUCTURE OF THE CORE FRAGMENT OF MUTY FROM E.COLI AT 1.2A RESOLUTION | 3.2.2 3.2.2.31 |
| 1KG3 | CRYSTAL STRUCTURE OF THE CORE FRAGMENT OF MUTY FROM E.COLI AT 1.55A RESOLUTION | 3.2.2 3.2.2.31 |
| 1KG4 | CRYSTAL STRUCTURE OF THE K142A MUTANT OF E. COLI MUTY (CORE FRAGMENT) | 3.2.2 3.2.2.31 |
| 1KG5 | CRYSTAL STRUCTURE OF THE K142Q MUTANT OF E.COLI MUTY (CORE FRAGMENT) | 3.2.2 3.2.2.31 |
| 1KG6 | CRYSTAL STRUCTURE OF THE K142R MUTANT OF E.COLI MUTY (CORE FRAGMENT) | 3.2.2 3.2.2.31 |
| 1KG7 | CRYSTAL STRUCTURE OF THE E161A MUTANT OF E.COLI MUTY (CORE FRAGMENT) | 3.2.2 3.2.2.31 |
| 1KGE | STRUCTURE OF BETA-LACTAMASE ASN 170 MET MUTANT | 3.5.2.6 |
| 1KGF | STRUCTURE OF BETA-LACTAMASE ASN 170 GLN MUTANT | 3.5.2.6 |
| 1KGG | STRUCTURE OF BETA-LACTAMASE GLU166GLN:ASN170ASP MUTANT | 3.5.2.6 |
| 1KGU | THREE DIMENSIONAL STRUCTURE ANALYSIS OF THE R337A VARIANT OF HUMAN PANCREATIC ALPHA-AMYLASE | 3.2.1.1 |
| 1KGW | THREE DIMENSIONAL STRUCTURE ANALYSIS OF THE R337Q VARIANT OF HUMAN PANCREATIC ALPHA-MYLASE | 3.2.1.1 |
| 1KGX | THREE DIMENSIONAL STRUCTURE ANALYSIS OF THE R195Q VARIANT OF HUMAN PANCREATIC ALPHA AMYLASE | 3.2.1.1 |
| 1KH4 | E. COLI ALKALINE PHOSPHATASE MUTANT (D330N) IN COMPLEX WITH PHOSPHATE | 3.1.3.1 |
| 1KH5 | E. COLI ALKALINE PHOSPHATASE MUTANT (D330N) MIMIC OF THE TRANSITION STATES WITH ALUMINIUM FLUORIDE | 3.1.3.1 |
| 1KH7 | E. COLI ALKALINE PHOSPHATASE MUTANT (D153GD330N) | 3.1.3.1 |
| 1KH8 | STRUCTURE OF A CIS-PROLINE (P114) TO GLYCINE VARIANT OF RIBONUCLEASE A | 3.1.27.5 4.6.1.18 |
| 1KH9 | E. COLI ALKALINE PHOSPHATASE MUTANT (D153GD330N) COMPLEX WITH PHOSPHATE | 3.1.3.1 |
| 1KHJ | E. COLI ALKALINE PHOSPHATASE MUTANT (D153HD330N) MIMIC OF THE TRANSITION STATES WITH ALUMINIUM FLUORIDE | 3.1.3.1 |
| 1KHK | E. COLI ALKALINE PHOSPHATASE MUTANT (D153HD330N) | 3.1.3.1 |
| 1KHL | E. COLI ALKALINE PHOSPHATASE MUTANT (D153HD330N) COMPLEX WITH PHOSPHATE | 3.1.3.1 |
| 1KHN | E. COLI ALKALINE PHOSPHATASE MUTANT (D153HD330N) ZINC FORM | 3.1.3.1 |
| 1KHO | CRYSTAL STRUCTURE ANALYSIS OF CLOSTRIDIUM PERFRINGENS ALPHA-TOXIN ISOLATED FROM AVIAN STRAIN SWCP | 3.1.4.3 |
| 1KHP | MONOCLINIC FORM OF PAPAIN/ZLFG-DAM COVALENT COMPLEX | 3.4.22.2 |
| 1KHQ | ORTHORHOMBIC FORM OF PAPAIN/ZLFG-DAM COVALENT COMPLEX | 3.4.22.2 |
| 1KHV | CRYSTAL STRUCTURE OF RABBIT HEMORRHAGIC DISEASE VIRUS RNA-DEPENDENT RNA POLYMERASE COMPLEXED WITH LU3+ | 2.7.7.48 3.6.1.15 3.4.22.66 |
| 1KHW | CRYSTAL STRUCTURE OF RABBIT HEMORRHAGIC DISEASE VIRUS RNA-DEPENDENT RNA POLYMERASE COMPLEXED WITH MN2+ | 2.7.7.48 3.6.1.15 3.4.22.66 |
| 1KHZ | STRUCTURE OF THE ADPR-ASE IN COMPLEX WITH AMPCPR AND MG | 3.6.1.13 |
| 1KI0 | THE X-RAY STRUCTURE OF HUMAN ANGIOSTATIN | 3.4.21.7 |
| 1KI1 | GUANINE NUCLEOTIDE EXCHANGE REGION OF INTERSECTIN IN COMPLEX WITH CDC42 | 3.6.5.2 |
| 1KIC | INOSINE-ADENOSINE-GUANOSINE PREFERRING NUCLEOSIDE HYDROLASE FROM TRYPANOSOMA VIVAX: ASP10ALA MUTANT IN COMPLEX WITH INOSINE | 3.2.2.1 |
| 1KIE | INOSINE-ADENOSINE-GUANOSINE PREFERRING NUCLEOSIDE HYDROLASE FROM TRYPANOSOMA VIVAX: ASP10ALA MUTANT IN COMPLEX WITH 3-DEAZA-ADENOSINE | 3.2.2.1 |
| 1KIG | BOVINE FACTOR XA | 3.4.21.6 |
| 1KIT | VIBRIO CHOLERAE NEURAMINIDASE | 3.2.1.18 |
| 1KIV | RECOMBINANT KRINGLE IV-10/M66 VARIANT OF HUMAN APOLIPOPROTEIN(A) | 3.4.21 |
| 1KJ4 | SUBSTRATE SHAPE DETERMINES SPECIFICITY OF RECOGNITION RECOGNITION FOR HIV-1 PROTEASE: ANALYSIS OF CRYSTAL STRUCTURES OF SIX SUBSTRATE COMPLEXES | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1KJ7 | SUBSTRATE SHAPE DETERMINES SPECIFICITY OF RECOGNITION RECOGNITION FOR HIV-1 PROTEASE: ANALYSIS OF CRYSTAL STRUCTURES OF SIX SUBSTRATE COMPLEXES | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1KJF | SUBSTRATE SHAPE DETERMINES SPECIFICITY OF RECOGNITION RECOGNITION FOR HIV-1 PROTEASE: ANALYSIS OF CRYSTAL STRUCTURES OF SIX SUBSTRATE COMPLEXES | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1KJG | SUBSTRATE SHAPE DETERMINES SPECIFICITY OF RECOGNITION RECOGNITION FOR HIV-1 PROTEASE: ANALYSIS OF CRYSTAL STRUCTURES OF SIX SUBSTRATE COMPLEXES | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1KJH | SUBSTRATE SHAPE DETERMINES SPECIFICITY OF RECOGNITION RECOGNITION FOR HIV-1 PROTEASE: ANALYSIS OF CRYSTAL STRUCTURES OF SIX SUBSTRATE COMPLEXES | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1KJK | SOLUTION STRUCTURE OF THE LAMBDA INTEGRASE AMINO-TERMINAL DOMAIN | 2.7.7 3.1 |
| 1KJO | THERMOLYSIN COMPLEXED WITH Z-L-THREONINE (BENZYLOXYCARBONYL-L-THREONINE) | 3.4.24.27 |
| 1KJP | THERMOLYSIN COMPLEXED WITH Z-L-GLUTAMIC ACID (BENZYLOXYCARBONYL-L-GLUTAMIC ACID) | 3.4.24.27 |
| 1KJU | CA2+-ATPASE IN THE E2 STATE | 3.6.3.8 7.2.2.10 |
| 1KJZ | STRUCTURE OF THE LARGE GAMMA SUBUNIT OF INITIATION FACTOR EIF2 FROM PYROCOCCUS ABYSSI-G235D MUTANT | 3.6.5.3 |
| 1KK0 | STRUCTURE OF THE LARGE GAMMA SUBUNIT OF INITIATION FACTOR EIF2 FROM PYROCOCCUS ABYSSI | 3.6.5.3 |
| 1KK1 | STRUCTURE OF THE LARGE GAMMA SUBUNIT OF INITIATION FACTOR EIF2 FROM PYROCOCCUS ABYSSI-G235D MUTANT COMPLEXED WITH GDPNP-MG2+ | 3.6.5.3 |
| 1KK2 | STRUCTURE OF THE LARGE GAMMA SUBUNIT OF INITIATION FACTOR EIF2 FROM PYROCOCCUS ABYSSI-G235D MUTANT COMPLEXED WITH GDP-MG2+ | 3.6.5.3 |
| 1KK3 | STRUCTURE OF THE WILD-TYPE LARGE GAMMA SUBUNIT OF INITIATION FACTOR EIF2 FROM PYROCOCCUS ABYSSI COMPLEXED WITH GDP-MG2+ | 3.6.5.3 |
| 1KKK | THERMOLYSIN COMPLEXED WITH Z-L-ASPARTIC ACID (BENZYLOXYCARBONYL-L-ASPARTIC ACID) | 3.4.24.27 |
| 1KKL | L.CASEI HPRK/P IN COMPLEX WITH B.SUBTILIS HPR | 2.7.1 3.1.3 2.7.11 2.7.4 |
| 1KKM | L.CASEI HPRK/P IN COMPLEX WITH B.SUBTILIS P-SER-HPR | 2.7.1 3.1.3 2.7.11 2.7.4 |
| 1KKT | STRUCTURE OF P. CITRINUM ALPHA 1,2-MANNOSIDASE REVEALS THE BASIS FOR DIFFERENCES IN SPECIFICITY OF THE ER AND GOLGI CLASS I ENZYMES | 3.2.1.113 |
| 1KL6 | THERMOLYSIN COMPLEXED WITH Z-L-ALANINE (BENZYLOXYCARBONYL-L-ALANINE) | 3.4.24.27 |
| 1KLI | COFACTOR-AND SUBSTRATE-ASSISTED ACTIVATION OF FACTOR VIIA | 3.4.21.21 |
| 1KLJ | CRYSTAL STRUCTURE OF UNINHIBITED FACTOR VIIA | 3.4.21.21 |
| 1KLM | HIV-1 REVERSE TRANSCRIPTASE COMPLEXED WITH BHAP U-90152 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1KLT | CRYSTAL STRUCTURE OF PMSF-TREATED HUMAN CHYMASE AT 1.9 ANGSTROMS RESOLUTION | 3.4.21.39 |
| 1KLX | HELICOBACTER PYLORI CYSTEINE RICH PROTEIN B (HCPB) | 3.5.2.6 |
| 1KM8 | THE STRUCTURE OF A CYTOTOXIC RIBONUCLEASE FROM THE OOCYTE OF RANA CATESBEIANA (BULLFROG) | 3.1.27.5 3.1.27 |
| 1KM9 | THE STRUCTURE OF A CYTOTOXIC RIBONUCLEASE FROM THE OOCYTE OF RANA CATESBEIANA (BULLFROG) | 3.1.27.5 3.1.27 |
| 1KMC | CRYSTAL STRUCTURE OF THE CASPASE-7 / XIAP-BIR2 COMPLEX | 3.4.22 3.4.22.60 |
| 1KMQ | CRYSTAL STRUCTURE OF A CONSTITUTIVELY ACTIVATED RHOA MUTANT (Q63L) | 3.6.5.2 |
| 1KN6 | SOLUTION STRUCTURE OF THE MOUSE PROHORMONE CONVERTASE 1 PRO-DOMAIN | 3.4.21.93 |
| 1KN9 | CRYSTAL STRUCTURE OF A BACTERIAL SIGNAL PEPTIDASE APO-ENZYME, IMPLICATIONS FOR SIGNAL PEPTIDE BINDING AND THE SER-LYS DYAD MECHANISM. | 3.4.21.89 |
| 1KNI | STABILIZING DISULFIDE BRIDGE MUTANT OF T4 LYSOZYME | 3.2.1.17 |
| 1KNL | STREPTOMYCES LIVIDANS XYLAN BINDING DOMAIN CBM13 | 3.2.1.8 |
| 1KNM | STREPTOMYCES LIVIDANS XYLAN BINDING DOMAIN CBM13 IN COMPLEX WITH LACTOSE | 3.2.1.8 |
| 1KNV | BSE634I RESTRICTION ENDONUCLEASE | 3.1.21.4 |
| 1KNX | HPR KINASE/PHOSPHATASE FROM MYCOPLASMA PNEUMONIAE | 2.7.1 3.1.3 2.7.11 2.7.4 |
| 1KO2 | VIM-2, A ZN-BETA-LACTAMASE FROM PSEUDOMONAS AERUGINOSA WITH AN OXIDIZED CYS (CYSTEINESULFONIC) | 3.5.2.6 |
| 1KO3 | VIM-2, A ZN-BETA-LACTAMASE FROM PSEUDOMONAS AERUGINOSA WITH CYS221 REDUCED | 3.5.2.6 |
| 1KO6 | CRYSTAL STRUCTURE OF C-TERMINAL AUTOPROTEOLYTIC DOMAIN OF NUCLEOPORIN NUP98 | 3.4.21 |
| 1KO7 | X-RAY STRUCTURE OF THE HPR KINASE/PHOSPHATASE FROM STAPHYLOCOCCUS XYLOSUS AT 1.95 A RESOLUTION | 2.7.1 3.1.3 2.7.11 2.7.4 |
| 1KO9 | NATIVE STRUCTURE OF THE HUMAN 8-OXOGUANINE DNA GLYCOSYLASE HOGG1 | 3.2.2 4.2.99.18 |
| 1KP0 | THE CRYSTAL STRUCTURE ANALYSIS OF CREATINE AMIDINOHYDROLASE FROM ACTINOBACILLUS | 3.5.3.3 |
| 1KP4 | CALCIUM-BOUND FORM OF PROKARYOTIC PHOSPHOLIPASE A2 | 3.1.1.4 |
| 1KPA | PKCI-1-ZINC | 3 |
| 1KPB | PKCI-1-APO | 3 |
| 1KPC | PKCI-1-APO+ZINC | 3 |
| 1KPE | PKCI-TRANSITION STATE ANALOG | 3 |
| 1KPF | PKCI-SUBSTRATE ANALOG | 3 |
| 1KPM | FIRST STRUCTURAL EVIDENCE OF A SPECIFIC INHIBITION OF PHOSPHOLIPASE A2 BY VITAMIN E AND ITS IMPLICATIONS IN INFLAMMATION: CRYSTAL STRUCTURE OF THE COMPLEX FORMED BETWEEN PHOSPHOLIPASE A2 AND VITAMIN E AT 1.8 A RESOLUTION. | 3.1.1.4 |
| 1KQ0 | HUMAN METHIONINE AMINOPEPTIDASE TYPE II IN COMPLEX WITH D-METHIONINE | 3.4.11.18 |
| 1KQ9 | HUMAN METHIONINE AMINOPEPTIDASE TYPE II IN COMPLEX WITH L-METHIONINE | 3.4.11.18 |
| 1KQJ | CRYSTAL STRUCTURE OF A MUTANT OF MUTY CATALYTIC DOMAIN | 3.2.2 3.2.2.31 |
| 1KQK | SOLUTION STRUCTURE OF THE N-TERMINAL DOMAIN OF A POTENTIAL COPPER-TRANSLOCATING P-TYPE ATPASE FROM BACILLUS SUBTILIS IN THE CU(I)LOADED STATE | 3.6.3.4 7.2.2.8 |
| 1KQU | HUMAN PHOSPHOLIPASE A2 COMPLEXED WITH A SUBSTRATE ANOLOGUE | 3.1.1.4 |
| 1KQY | HEVAMINE MUTANT D125A/E127A/Y183F IN COMPLEX WITH PENTA-NAG | 3.2.1.14 3.2.1.17 |
| 1KQZ | HEVAMINE MUTANT D125A/E127A/Y183F IN COMPLEX WITH TETRA-NAG | 3.2.1.14 3.2.1.17 |
| 1KR0 | HEVAMINE MUTANT D125A/Y183F IN COMPLEX WITH TETRA-NAG | 3.2.1.14 3.2.1.17 |
| 1KR1 | HEVAMINE MUTANT D125A/E127A IN COMPLEX WITH TETRA-NAG | 3.2.1.14 3.2.1.17 |
| 1KR3 | CRYSTAL STRUCTURE OF THE METALLO BETA-LACTAMASE FROM BACTEROIDES FRAGILIS (CFIA) IN COMPLEX WITH THE TRICYCLIC INHIBITOR SB-236050. | 3.5.2.6 |
| 1KR6 | THERMOLYSIN COMPLEXED WITH Z-D-GLUTAMIC ACID (BENZYLOXYCARBONYL-D-GLUTAMIC ACID) | 3.4.24.27 |
| 1KRA | CRYSTAL STRUCTURE OF KLEBSIELLA AEROGENES UREASE, ITS APOENZYME AND TWO ACTIVE SITE MUTANTS | 3.5.1.5 |
| 1KRB | CRYSTAL STRUCTURE OF KLEBSIELLA AEROGENES UREASE, ITS APOENZYME AND TWO ACTIVE SITE MUTANTS | 3.5.1.5 |
| 1KRC | CRYSTAL STRUCTURE OF KLEBSIELLA AEROGENES UREASE, ITS APOENZYME AND TWO ACTIVE SITE MUTANTS | 3.5.1.5 |
| 1KRE | STRUCTURE OF P. CITRINUM ALPHA 1,2-MANNOSIDASE REVEALS THE BASIS FOR DIFFERENCES IN SPECIFICITY OF THE ER AND GOLGI CLASS I ENZYMES | 3.2.1.113 |
| 1KRF | STRUCTURE OF P. CITRINUM ALPHA 1,2-MANNOSIDASE REVEALS THE BASIS FOR DIFFERENCES IN SPECIFICITY OF THE ER AND GOLGI CLASS I ENZYMES | 3.2.1.113 |
| 1KRM | CRYSTAL STRUCTURE OF BOVINE ADENOSINE DEAMINASE COMPLEXED WITH 6-HYDROXYL-1,6-DIHYDROPURINE RIBOSIDE | 3.5.4.4 |
| 1KRN | STRUCTURE OF KRINGLE 4 AT 4C TEMPERATURE AND 1.67 ANGSTROMS RESOLUTION | 3.4.21.7 |
| 1KRO | THERMOLYSIN COMPLEXED WITH Z-D-THREONINE (BENZYLOXYCARBONYL-D-THREONINE) | 3.4.24.27 |
| 1KS0 | THE FIRST FIBRONECTIN TYPE II MODULE FROM HUMAN MATRIX METALLOPROTEINASE 2 | 3.4.24.24 |
| 1KS3 | METHIONINE CORE MUTANT OF T4 LYSOZYME | 3.2.1.17 |
| 1KS4 | THE STRUCTURE OF ASPERGILLUS NIGER ENDOGLUCANASE-PALLADIUM COMPLEX | 3.2.1.4 |
| 1KS5 | STRUCTURE OF ASPERGILLUS NIGER ENDOGLUCANASE | 3.2.1.4 |
| 1KS7 | THERMOLYSIN COMPLEXED WITH Z-D-ASPARTIC ACID (BENZYLOXYCARBONYL-D-ASPARTIC ACID) | 3.4.24.27 |
| 1KS8 | THE STRUCTURE OF ENDOGLUCANASE FROM TERMITE, NASUTITERMES TAKASAGOENSIS, AT PH 2.5. | 3.2.1.4 |
| 1KSC | THE STRUCTURE OF ENDOGLUCANASE FROM TERMITE, NASUTITERMES TAKASAGOENSIS, AT PH 5.6. | 3.2.1.4 |
| 1KSD | THE STRUCTURE OF ENDOGLUCANASE FROM TERMITE, NASUTITERMES TAKASAGOENSIS, AT PH 6.5. | 3.2.1.4 |
| 1KSN | CRYSTAL STRUCTURE OF HUMAN COAGULATION FACTOR XA COMPLEXED WITH FXV673 | 3.4.21.6 |
| 1KSX | CRYSTAL STRUCTURES OF TWO INTERMEDIATES IN THE ASSEMBLY OF THE PAPILLOMAVIRUS REPLICATION INITIATION COMPLEX | 3.6.4.12 |
| 1KSY | CRYSTAL STRUCTURES OF TWO INTERMEDIATES IN THE ASSEMBLY OF THE PAPILLOMAVIRUS REPLICATION INITIATION COMPLEX | 3.6.4.12 |
| 1KT9 | CRYSTAL STRUCTURE OF C. ELEGANS AP4A HYDROLASE | 3.6.1.17 3.6.1 |
| 1KTB | THE STRUCTURE OF ALPHA-N-ACETYLGALACTOSAMINIDASE | 3.2.1.49 |
| 1KTC | THE STRUCTURE OF ALPHA-N-ACETYLGALACTOSAMINIDASE | 3.2.1.49 |
| 1KTG | CRYSTAL STRUCTURE OF A C. ELEGANS AP4A HYDROLASE BINARY COMPLEX | 3.6.1.17 3.6.1 |
| 1KTO | THERMOLYSIN COMPLEXED WITH Z-D-ALANINE (BENZYLOXYCARBONYL-D-ALANINE) | 3.4.24.27 |
| 1KTS | THROMBIN INHIBITOR COMPLEX | 3.4.21.5 |
| 1KTT | THROMBIN INHIBITOR COMPLEX | 3.4.21.5 |
| 1KTW | IOTA-CARRAGEENASE COMPLEXED TO IOTA-CARRAGEENAN FRAGMENTS | 3.2.1.157 |
| 1KU0 | STRUCTURE OF THE BACILLUS STEAROTHERMOPHILUS L1 LIPASE | 3.1.1.3 |
| 1KU6 | FASCICULIN 2-MOUSE ACETYLCHOLINESTERASE COMPLEX | 3.1.1.7 |
| 1KUF | HIGH-RESOLUTION CRYSTAL STRUCTURE OF A SNAKE VENOM METALLOPROTEINASE FROM TAIWAN HABU | 3.4.24.44 3.4.24 |
| 1KUG | CRYSTAL STRUCTURE OF A TAIWAN HABU VENOM METALLOPROTEINASE COMPLEXED WITH ITS ENDOGENOUS INHIBITOR PENW | 3.4.24.44 3.4.24 |
| 1KUH | ZINC PROTEASE FROM STREPTOMYCES CAESPITOSUS | 3.4.24.77 |
| 1KUI | CRYSTAL STRUCTURE OF A TAIWAN HABU VENOM METALLOPROTEINASE COMPLEXED WITH PEQW. | 3.4.24.44 3.4.24 |
| 1KUK | CRYSTAL STRUCTURE OF A TAIWAN HABU VENOM METALLOPROTEINASE COMPLEXED WITH PEKW. | 3.4.24.44 3.4.24 |
| 1KUL | GLUCOAMYLASE, GRANULAR STARCH-BINDING DOMAIN, NMR, 5 STRUCTURES | 3.2.1.3 |
| 1KUM | GLUCOAMYLASE, GRANULAR STARCH-BINDING DOMAIN, NMR, MINIMIZED AVERAGE STRUCTURE | 3.2.1.3 |
| 1KUU | CRYSTAL STRUCTURE OF METHANOBACTERIUM THERMOAUTOTROPHICUM CONSERVED PROTEIN MTH1020 REVEALS AN NTN-HYDROLASE FOLD | 3.5.4.10 |
| 1KVA | E. COLI RIBONUCLEASE HI D134A MUTANT | 3.1.26.4 |
| 1KVB | E. COLI RIBONUCLEASE HI D134H MUTANT | 3.1.26.4 |
| 1KVC | E. COLI RIBONUCLEASE HI D134N MUTANT | 3.1.26.4 |
| 1KVI | SOLUTION STRUCTURE OF THE REDUCED FORM OF THE FIRST HEAVY METAL BINDING MOTIF OF THE MENKES PROTEIN | 3.6.3.4 7.2.2.8 |
| 1KVJ | SOLUTION STRUCTURE OF THE CU(I) BOUND FORM OF THE FIRST HEAVY METAL BINDING MOTIF OF THE MENKES PROTEIN | 3.6.3.4 7.2.2.8 |
| 1KVL | X-RAY CRYSTAL STRUCTURE OF AMPC S64G MUTANT BETA-LACTAMASE IN COMPLEX WITH SUBSTRATE AND PRODUCT FORMS OF CEPHALOTHIN | 3.5.2.6 |
| 1KVM | X-RAY CRYSTAL STRUCTURE OF AMPC WT BETA-LACTAMASE IN COMPLEX WITH COVALENTLY BOUND CEPHALOTHIN | 3.5.2.6 |
| 1KVO | HUMAN PHOSPHOLIPASE A2 COMPLEXED WITH A HIGHLY POTENT SUBSTRATE ANOLOGUE | 3.1.1.4 |
| 1KVW | CARBOXYLIC ESTER HYDROLASE, SINGLE MUTANT H48Q OF BOVINE PANCREATIC PLA2 ENZYME | 3.1.1.4 |
| 1KVX | CARBOXYLIC ESTER HYDROLASE, SINGLE MUTANT D99A OF BOVINE PANCREATIC PLA2, 1.9 A ORTHORHOMBIC FORM | 3.1.1.4 |
| 1KVY | CARBOXYLIC ESTER HYDROLASE, SINGLE MUTANT D49E COORDINATED TO CALCIUM | 3.1.1.4 |
| 1KW5 | METHIONINE CORE MUTANT OF T4 LYSOZYME | 3.2.1.17 |
| 1KW7 | METHIONINE CORE MUTANT OF T4 LYSOZYME | 3.2.1.17 |
| 1KWF | ATOMIC RESOLUTION STRUCTURE OF AN INVERTING GLYCOSIDASE IN COMPLEX WITH SUBSTRATE | 3.2.1.4 |
| 1KWG | CRYSTAL STRUCTURE OF THERMUS THERMOPHILUS A4 BETA-GALACTOSIDASE | 3.2.1.23 |
| 1KWK | CRYSTAL STRUCTURE OF THERMUS THERMOPHILUS A4 BETA-GALACTOSIDASE IN COMPLEX WITH GALACTOSE | 3.2.1.23 |
| 1KWM | HUMAN PROCARBOXYPEPTIDASE B: THREE-DIMENSIONAL STRUCTURE AND IMPLICATIONS FOR THROMBIN-ACTIVATABLE FIBRINOLYSIS INHIBITOR (TAFI) | 3.4.17.2 |
| 1KXA | SINDBIS VIRUS CAPSID, (WILD-TYPE) RESIDUES 106-264, TETRAGONAL CRYSTAL FORM | 3.4.21 3.4.21.90 |
| 1KXB | SINDBIS VIRUS CAPSID (S215A MUTANT), TETRAGONAL CRYSTAL FORM | 3.4.21 3.4.21.90 |
| 1KXC | SINDBIS VIRUS CAPSID (N190K MUTANT), TETRAGONAL CRYSTAL FORM | 3.4.21 3.4.21.90 |
| 1KXD | SINDBIS VIRUS CAPSID (N222L MUTANT), TETRAGONAL CRYSTAL FORM | 3.4.21 3.4.21.90 |
| 1KXE | SINDBIS VIRUS CAPSID (Y180S, E183G DOUBLE MUTANT), TETRAGONAL CRYSTAL FORM | 3.4.21 3.4.21.90 |
| 1KXF | SINDBIS VIRUS CAPSID, (WILD-TYPE) RESIDUES 1-264, TETRAGONAL CRYSTAL FORM (FORM II) | 3.4.21 3.4.21.90 |
| 1KXH | CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN AN INACTIVE MUTANT OF PSYCHROPHILIC ALPHA-AMYLASE (D174N) AND ACARBOSE | 3.2.1.1 |
| 1KXJ | THE CRYSTAL STRUCTURE OF GLUTAMINE AMIDOTRANSFERASE FROM THERMOTOGA MARITIMA | 2.4.2 4.3.2.10 3.5.1.2 |
| 1KXQ | CAMELID VHH DOMAIN IN COMPLEX WITH PORCINE PANCREATIC ALPHA-AMYLASE | 3.2.1.1 |
| 1KXR | CRYSTAL STRUCTURE OF CALCIUM-BOUND PROTEASE CORE OF CALPAIN I | 3.4.22.17 3.4.22.52 |
| 1KXT | CAMELID VHH DOMAINS IN COMPLEX WITH PORCINE PANCREATIC ALPHA-AMYLASE | 3.2.1.1 |
| 1KXV | CAMELID VHH DOMAINS IN COMPLEX WITH PORCINE PANCREATIC ALPHA-AMYLASE | 3.2.1.1 |
| 1KXW | ANALYSIS OF THE STABILIZATION OF HEN LYSOZYME WITH THE HELIX DIPOLE AND CHARGED SIDE CHAINS | 3.2.1.17 |
| 1KXX | ANALYSIS OF THE STABILIZATION OF HEN LYSOZYME WITH THE HELIX DIPOLE AND CHARGED SIDE CHAINS | 3.2.1.17 |
| 1KXY | ANALYSIS OF THE STABILIZATION OF HEN LYSOZYME WITH THE HELIX DIPOLE AND CHARGED SIDE CHAINS | 3.2.1.17 |
| 1KY0 | METHIONINE CORE MUTANT OF T4 LYSOZYME | 3.2.1.17 |
| 1KY1 | METHIONINE CORE MUTANT OF T4 LYSOZYME | 3.2.1.17 |
| 1KY4 | S-ADENOSYLHOMOCYSTEINE HYDROLASE REFINED WITH NONCRYSTALLOGRAPHIC RESTRAINTS | 3.3.1.1 |
| 1KY5 | D244E MUTANT S-ADENOSYLHOMOCYSTEINE HYDROLASE REFINED WITH NONCRYSTALLOGRAPHIC RESTRAINTS | 3.3.1.1 |
| 1KY9 | CRYSTAL STRUCTURE OF DEGP (HTRA) | 3.4.21 3.4.21.107 |
| 1KYN | CATHEPSIN-G | 3.4.21.20 |
| 1KYT | CRYSTAL STRUCTURE OF THERMOPLASMA ACIDOPHILUM 0175 (APC014) | 3.1.3.18 |
| 1KZ8 | CRYSTAL STRUCTURE OF PORCINE FRUCTOSE-1,6-BISPHOSPHATASE COMPLEXED WITH A NOVEL ALLOSTERIC-SITE INHIBITOR | 3.1.3.11 |
| 1KZK | JE-2147-HIV PROTEASE COMPLEX | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1L00 | PERTURBATION OF TRP 138 IN T4 LYSOZYME BY MUTATIONS AT GLN 105 USED TO CORRELATE CHANGES IN STRUCTURE, STABILITY, SOLVATION, AND SPECTROSCOPIC PROPERTIES | 3.2.1.17 |
| 1L01 | STRUCTURAL STUDIES OF MUTANTS OF THE LYSOZYME OF BACTERIOPHAGE T4. THE TEMPERATURE-SENSITIVE MUTANT PROTEIN THR157 (RIGHT ARROW) ILE | 3.2.1.17 |
| 1L02 | CONTRIBUTIONS OF HYDROGEN BONDS OF THR 157 TO THE THERMODYNAMIC STABILITY OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L03 | CONTRIBUTIONS OF HYDROGEN BONDS OF THR 157 TO THE THERMODYNAMIC STABILITY OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L04 | CONTRIBUTIONS OF HYDROGEN BONDS OF THR 157 TO THE THERMODYNAMIC STABILITY OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L05 | CONTRIBUTIONS OF HYDROGEN BONDS OF THR 157 TO THE THERMODYNAMIC STABILITY OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L06 | CONTRIBUTIONS OF HYDROGEN BONDS OF THR 157 TO THE THERMODYNAMIC STABILITY OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L07 | CONTRIBUTIONS OF HYDROGEN BONDS OF THR 157 TO THE THERMODYNAMIC STABILITY OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L08 | CONTRIBUTIONS OF HYDROGEN BONDS OF THR 157 TO THE THERMODYNAMIC STABILITY OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L09 | CONTRIBUTIONS OF HYDROGEN BONDS OF THR 157 TO THE THERMODYNAMIC STABILITY OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L0D | X-RAY CRYSTAL STRUCTURE OF AMPC S64D MUTANT BETA-LACTAMASE | 3.5.2.6 |
| 1L0E | X-RAY CRYSTAL STRUCTURE OF AMPC K67Q MUTANT BETA-LACTAMASE | 3.5.2.6 |
| 1L0F | X-RAY CRYSTAL STRUCTURE OF AMPC N152H MUTANT BETA-LACTAMASE | 3.5.2.6 |
| 1L0G | X-RAY CRYSTAL STRUCTURE OF AMPC S64G MUTANT BETA-LACTAMASE | 3.5.2.6 |
| 1L0J | METHIONINE CORE MUTANT OF T4 LYSOZYME | 3.2.1.17 |
| 1L0K | METHIONINE CORE MUTANT OF T4 LYSOZYME | 3.2.1.17 |
| 1L0P | CRYSTAL STRUCTURE ANALYSIS OF THE COMPLEX BETWEEN PSYCHROPHILIC ALPHA AMYLASE FROM PSEUDOALTEROMONAS HALOPLANCTIS AND NITRATE | 3.2.1.1 |
| 1L0Z | THE STRUCTURE OF PORCINE PANCREATIC ELASTASE COMPLEXED WITH XENON AND BROMIDE, CRYOPROTECTED WITH DRY PARAFFIN OIL | 3.4.21.36 |
| 1L10 | STRUCTURAL STUDIES OF MUTANTS OF THE LYSOZYME OF BACTERIOPHAGE T4. THE TEMPERATURE-SENSITIVE MUTANT PROTEIN THR157 (RIGHT ARROW) ILE | 3.2.1.17 |
| 1L11 | CONTRIBUTIONS OF HYDROGEN BONDS OF THR 157 TO THE THERMODYNAMIC STABILITY OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L12 | CONTRIBUTIONS OF HYDROGEN BONDS OF THR 157 TO THE THERMODYNAMIC STABILITY OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L13 | CONTRIBUTIONS OF HYDROGEN BONDS OF THR 157 TO THE THERMODYNAMIC STABILITY OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L14 | CONTRIBUTIONS OF HYDROGEN BONDS OF THR 157 TO THE THERMODYNAMIC STABILITY OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L15 | CONTRIBUTIONS OF HYDROGEN BONDS OF THR 157 TO THE THERMODYNAMIC STABILITY OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L16 | STRUCTURAL ANALYSIS OF THE TEMPERATURE-SENSITIVE MUTANT OF BACTERIOPHAGE T4 LYSOZYME, GLYCINE 156 (RIGHT ARROW) ASPARTIC ACID | 3.2.1.17 |
| 1L17 | HYDROPHOBIC STABILIZATION IN T4 LYSOZYME DETERMINED DIRECTLY BY MULTIPLE SUBSTITUTIONS OF ILE 3 | 3.2.1.17 |
| 1L18 | HYDROPHOBIC STABILIZATION IN T4 LYSOZYME DETERMINED DIRECTLY BY MULTIPLE SUBSTITUTIONS OF ILE 3 | 3.2.1.17 |
| 1L19 | ENHANCED PROTEIN THERMOSTABILITY FROM DESIGNED MUTATIONS THAT INTERACT WITH ALPHA-HELIX DIPOLES | 3.2.1.17 |
| 1L1G | THE STRUCTURE OF PORCINE PANCREATIC ELASTASE COMPLEXED WITH XENON AND BROMIDE, CRYOPROTECTED WITH GLYCEROL | 3.4.21.36 |
| 1L1J | CRYSTAL STRUCTURE OF THE PROTEASE DOMAIN OF AN ATP-INDEPENDENT HEAT SHOCK PROTEASE HTRA | 3.4.21 |
| 1L1N | POLIOVIRUS 3C PROTEINASE | 3.4.22.28 3.4.22.29 3.6.1.15 2.7.7.48 |
| 1L1T | MUTM (FPG) BOUND TO ABASIC-SITE CONTAINING DNA | 3.2.2.23 4.2.99.18 |
| 1L1Z | MUTM (FPG) COVALENT-DNA INTERMEDIATE | 3.2.2.23 4.2.99.18 |
| 1L20 | ENHANCED PROTEIN THERMOSTABILITY FROM DESIGNED MUTATIONS THAT INTERACT WITH ALPHA-HELIX DIPOLES | 3.2.1.17 |
| 1L21 | CONTRIBUTIONS OF LEFT-HANDED HELICAL RESIDUES TO THE STRUCTURE AND STABILITY OF BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L22 | CONTRIBUTIONS OF LEFT-HANDED HELICAL RESIDUES TO THE STRUCTURE AND STABILITY OF BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L23 | ENHANCED PROTEIN THERMOSTABILITY FROM SITE-DIRECTED MUTATIONS THAT DECREASE THE ENTROPY OF UNFOLDING | 3.2.1.17 |
| 1L24 | ENHANCED PROTEIN THERMOSTABILITY FROM SITE-DIRECTED MUTATIONS THAT DECREASE THE ENTROPY OF UNFOLDING | 3.2.1.17 |
| 1L25 | REPLACEMENTS OF PRO86 IN PHAGE T4 LYSOZYME EXTEND AN ALPHA-HELIX BUT DO NOT ALTER PROTEIN STABILITY | 3.2.1.17 |
| 1L26 | REPLACEMENTS OF PRO86 IN PHAGE T4 LYSOZYME EXTEND AN ALPHA-HELIX BUT DO NOT ALTER PROTEIN STABILITY | 3.2.1.17 |
| 1L27 | REPLACEMENTS OF PRO86 IN PHAGE T4 LYSOZYME EXTEND AN ALPHA-HELIX BUT DO NOT ALTER PROTEIN STABILITY | 3.2.1.17 |
| 1L28 | REPLACEMENTS OF PRO86 IN PHAGE T4 LYSOZYME EXTEND AN ALPHA-HELIX BUT DO NOT ALTER PROTEIN STABILITY | 3.2.1.17 |
| 1L29 | REPLACEMENTS OF PRO86 IN PHAGE T4 LYSOZYME EXTEND AN ALPHA-HELIX BUT DO NOT ALTER PROTEIN STABILITY | 3.2.1.17 |
| 1L2B | MUTM (FPG) DNA END-PRODUCT STRUCTURE | 3.2.2.23 4.2.99.18 |
| 1L2C | MUTM (FPG)-DNA ESTRANGED THYMINE MISMATCH RECOGNITION COMPLEX | 3.2.2.23 4.2.99.18 |
| 1L2E | HUMAN KALLIKREIN 6 (HK6) ACTIVE FORM WITH BENZAMIDINE INHIBITOR | 3.4.21 |
| 1L2M | MINIMIZED AVERAGE STRUCTURE OF THE N-TERMINAL, DNA-BINDING DOMAIN OF THE REPLICATION INITIATION PROTEIN FROM A GEMINIVIRUS (TOMATO YELLOW LEAF CURL VIRUS-SARDINIA) | 2.7.7 3.1.21 |
| 1L2P | ATP SYNTHASE B SUBUNIT DIMERIZATION DOMAIN | 3.6.3.34 |
| 1L2S | X-RAY CRYSTAL STRUCTURE OF AMPC BETA-LACTAMASE FROM E. COLI IN COMPLEX WITH A DOCK-PREDICTED NON-COVALENT INHIBITOR | 3.5.2.6 |
| 1L30 | REPLACEMENTS OF PRO86 IN PHAGE T4 LYSOZYME EXTEND AN ALPHA-HELIX BUT DO NOT ALTER PROTEIN STABILITY | 3.2.1.17 |
| 1L31 | REPLACEMENTS OF PRO86 IN PHAGE T4 LYSOZYME EXTEND AN ALPHA-HELIX BUT DO NOT ALTER PROTEIN STABILITY | 3.2.1.17 |
| 1L32 | REPLACEMENTS OF PRO86 IN PHAGE T4 LYSOZYME EXTEND AN ALPHA-HELIX BUT DO NOT ALTER PROTEIN STABILITY | 3.2.1.17 |
| 1L33 | CONTRIBUTIONS OF LEFT-HANDED HELICAL RESIDUES TO THE STRUCTURE AND STABILITY OF BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L34 | HIGH-RESOLUTION STRUCTURE OF THE TEMPERATURE-SENSITIVE MUTANT OF PHAGE LYSOZYME, ARG 96 (RIGHT ARROW) HIS | 3.2.1.17 |
| 1L35 | STRUCTURE OF A THERMOSTABLE DISULFIDE-BRIDGE MUTANT OF PHAGE T4 LYSOZYME SHOWS THAT AN ENGINEERED CROSSLINK IN A FLEXIBLE REGION DOES NOT INCREASE THE RIGIDITY OF THE FOLDED PROTEIN | 3.2.1.17 |
| 1L36 | TOWARD A SIMPLIFICATION OF THE PROTEIN FOLDING PROBLEM: A STABILIZING POLYALANINE ALPHA-HELIX ENGINEERED IN T4 LYSOZYME | 3.2.1.17 |
| 1L37 | CONTRIBUTIONS OF ENGINEERED SURFACE SALT BRIDGES TO THE STABILITY OF T4 LYSOZYME DETERMINED BY DIRECTED MUTAGENESIS | 3.2.1.17 |
| 1L38 | CONTRIBUTIONS OF ENGINEERED SURFACE SALT BRIDGES TO THE STABILITY OF T4 LYSOZYME DETERMINED BY DIRECTED MUTAGENESIS | 3.2.1.17 |
| 1L39 | CONTRIBUTIONS OF ENGINEERED SURFACE SALT BRIDGES TO THE STABILITY OF T4 LYSOZYME DETERMINED BY DIRECTED MUTAGENESIS | 3.2.1.17 |
| 1L3F | THERMOLYSIN IN THE ABSENCE OF SUBSTRATE HAS AN OPEN CONFORMATION | 3.4.24.27 |
| 1L3X | SOLUTION STRUCTURE OF NOVEL DISINTEGRIN SALMOSIN | 3.4.24 |
| 1L40 | CONTRIBUTIONS OF ENGINEERED SURFACE SALT BRIDGES TO THE STABILITY OF T4 LYSOZYME DETERMINED BY DIRECTED MUTAGENESIS | 3.2.1.17 |
| 1L41 | CONTRIBUTIONS OF ENGINEERED SURFACE SALT BRIDGES TO THE STABILITY OF T4 LYSOZYME DETERMINED BY DIRECTED MUTAGENESIS | 3.2.1.17 |
| 1L42 | CUMULATIVE SITE-DIRECTED CHARGE-CHANGE REPLACEMENTS IN BACTERIOPHAGE T4 LYSOZYME SUGGEST THAT LONG-RANGE ELECTROSTATIC INTERACTIONS CONTRIBUTE LITTLE TO PROTEIN STABILITY | 3.2.1.17 |
| 1L43 | CUMULATIVE SITE-DIRECTED CHARGE-CHANGE REPLACEMENTS IN BACTERIOPHAGE T4 LYSOZYME SUGGEST THAT LONG-RANGE ELECTROSTATIC INTERACTIONS CONTRIBUTE LITTLE TO PROTEIN STABILITY | 3.2.1.17 |
| 1L44 | CUMULATIVE SITE-DIRECTED CHARGE-CHANGE REPLACEMENTS IN BACTERIOPHAGE T4 LYSOZYME SUGGEST THAT LONG-RANGE ELECTROSTATIC INTERACTIONS CONTRIBUTE LITTLE TO PROTEIN STABILITY | 3.2.1.17 |
| 1L45 | CUMULATIVE SITE-DIRECTED CHARGE-CHANGE REPLACEMENTS IN BACTERIOPHAGE T4 LYSOZYME SUGGEST THAT LONG-RANGE ELECTROSTATIC INTERACTIONS CONTRIBUTE LITTLE TO PROTEIN STABILITY | 3.2.1.17 |
| 1L46 | CUMULATIVE SITE-DIRECTED CHARGE-CHANGE REPLACEMENTS IN BACTERIOPHAGE T4 LYSOZYME SUGGEST THAT LONG-RANGE ELECTROSTATIC INTERACTIONS CONTRIBUTE LITTLE TO PROTEIN STABILITY | 3.2.1.17 |
| 1L47 | CUMULATIVE SITE-DIRECTED CHARGE-CHANGE REPLACEMENTS IN BACTERIOPHAGE T4 LYSOZYME SUGGEST THAT LONG-RANGE ELECTROSTATIC INTERACTIONS CONTRIBUTE LITTLE TO PROTEIN STABILITY | 3.2.1.17 |
| 1L48 | STRUCTURAL AND THERMODYNAMIC ANALYSIS OF THE PACKING OF TWO ALPHA-HELICES IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L49 | STRUCTURAL AND THERMODYNAMIC ANALYSIS OF THE PACKING OF TWO ALPHA-HELICES IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L4D | CRYSTAL STRUCTURE OF MICROPLASMINOGEN-STREPTOKINASE ALPHA DOMAIN COMPLEX | 3.4.21.7 |
| 1L4Z | X-RAY CRYSTAL STRUCTURE OF THE COMPLEX OF MICROPLASMINOGEN WITH ALPHA DOMAIN OF STREPTOKINASE IN THE PRESENCE CADMIUM IONS | 3.4.21.7 |
| 1L50 | STRUCTURAL AND THERMODYNAMIC ANALYSIS OF THE PACKING OF TWO ALPHA-HELICES IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L51 | STRUCTURAL AND THERMODYNAMIC ANALYSIS OF THE PACKING OF TWO ALPHA-HELICES IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L52 | STRUCTURAL AND THERMODYNAMIC ANALYSIS OF THE PACKING OF TWO ALPHA-HELICES IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L53 | STRUCTURAL AND THERMODYNAMIC ANALYSIS OF THE PACKING OF TWO ALPHA-HELICES IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L54 | THE STRUCTURAL AND THERMODYNAMIC CONSEQUENCES OF BURYING A CHARGED RESIDUE WITHIN THE HYDROPHOBIC CORE OF T4 LYSOZYME | 3.2.1.17 |
| 1L55 | ANALYSIS OF THE INTERACTION BETWEEN CHARGED SIDE CHAINS AND THE ALPHA-HELIX DIPOLE USING DESIGNED THERMOSTABLE MUTANTS OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L56 | ANALYSIS OF THE INTERACTION BETWEEN CHARGED SIDE CHAINS AND THE ALPHA-HELIX DIPOLE USING DESIGNED THERMOSTABLE MUTANTS OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L57 | ANALYSIS OF THE INTERACTION BETWEEN CHARGED SIDE CHAINS AND THE ALPHA-HELIX DIPOLE USING DESIGNED THERMOSTABLE MUTANTS OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L58 | ANALYSIS OF THE INTERACTION BETWEEN CHARGED SIDE CHAINS AND THE ALPHA-HELIX DIPOLE USING DESIGNED THERMOSTABLE MUTANTS OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L59 | ANALYSIS OF THE INTERACTION BETWEEN CHARGED SIDE CHAINS AND THE ALPHA-HELIX DIPOLE USING DESIGNED THERMOSTABLE MUTANTS OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L5I | 30-CONFORMER NMR ENSEMBLE OF THE N-TERMINAL, DNA-BINDING DOMAIN OF THE REPLICATION INITIATION PROTEIN FROM A GEMINIVIRUS (TOMATO YELLOW LEAF CURL VIRUS-SARDINIA) | 2.7.7 3.1.21 |
| 1L5T | CRYSTAL STRUCTURE OF A DOMAIN-OPENED MUTANT (R121D) OF THE HUMAN LACTOFERRIN N-LOBE REFINED FROM A MEROHEDRALLY-TWINNED CRYSTAL FORM. | 1.16.1.2 3.4.21 |
| 1L5X | THE 2.0-ANGSTROM RESOLUTION CRYSTAL STRUCTURE OF A SURVIVAL PROTEIN E (SURE) HOMOLOG FROM PYROBACULUM AEROPHILUM | 3.1.3.5 |
| 1L60 | ANALYSIS OF THE INTERACTION BETWEEN CHARGED SIDE CHAINS AND THE ALPHA-HELIX DIPOLE USING DESIGNED THERMOSTABLE MUTANTS OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L61 | ANALYSIS OF THE INTERACTION BETWEEN CHARGED SIDE CHAINS AND THE ALPHA-HELIX DIPOLE USING DESIGNED THERMOSTABLE MUTANTS OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L62 | ANALYSIS OF THE INTERACTION BETWEEN CHARGED SIDE CHAINS AND THE ALPHA-HELIX DIPOLE USING DESIGNED THERMOSTABLE MUTANTS OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L63 | ANALYSIS OF THE INTERACTION BETWEEN CHARGED SIDE CHAINS AND THE ALPHA-HELIX DIPOLE USING DESIGNED THERMOSTABLE MUTANTS OF PHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L64 | TOLERANCE OF T4 LYSOZYME TO MULTIPLE XAA (RIGHT ARROW) ALA SUBSTITUTIONS: A POLYALANINE ALPHA-HELIX CONTAINING TEN CONSECUTIVE ALANINES | 3.2.1.17 |
| 1L65 | TOLERANCE OF T4 LYSOZYME TO MULTIPLE XAA (RIGHT ARROW) ALA SUBSTITUTIONS: A POLYALANINE ALPHA-HELIX CONTAINING TEN CONSECUTIVE ALANINES | 3.2.1.17 |
| 1L66 | TOLERANCE OF T4 LYSOZYME TO MULTIPLE XAA (RIGHT ARROW) ALA SUBSTITUTIONS: A POLYALANINE ALPHA-HELIX CONTAINING TEN CONSECUTIVE ALANINES | 3.2.1.17 |
| 1L67 | TOLERANCE OF T4 LYSOZYME TO MULTIPLE XAA (RIGHT ARROW) ALA SUBSTITUTIONS: A POLYALANINE ALPHA-HELIX CONTAINING TEN CONSECUTIVE ALANINES | 3.2.1.17 |
| 1L68 | TOLERANCE OF T4 LYSOZYME TO MULTIPLE XAA (RIGHT ARROW) ALA SUBSTITUTIONS: A POLYALANINE ALPHA-HELIX CONTAINING TEN CONSECUTIVE ALANINES | 3.2.1.17 |
| 1L69 | MULTIPLE STABILIZING ALANINE REPLACEMENTS WITHIN ALPHA-HELIX 126-134 OF T4 LYSOZYME HAVE INDEPENDENT, ADDITIVE EFFECTS ON BOTH STRUCTURE AND STABILITY | 3.2.1.17 |
| 1L6J | CRYSTAL STRUCTURE OF HUMAN MATRIX METALLOPROTEINASE MMP9 (GELATINASE B). | 3.4.24.35 |
| 1L6R | CRYSTAL STRUCTURE OF THERMOPLASMA ACIDOPHILUM 0175 (APC0014) | 3.1.3.18 |
| 1L6T | STRUCTURE OF ALA24/ASP61 TO ASP24/ASN61 SUBSTITUTED SUBUNIT C OF ESCHERICHIA COLI ATP SYNTHASE | 3.6.3.34 |
| 1L70 | MULTIPLE STABILIZING ALANINE REPLACEMENTS WITHIN ALPHA-HELIX 126-134 OF T4 LYSOZYME HAVE INDEPENDENT, ADDITIVE EFFECTS ON BOTH STRUCTURE AND STABILITY | 3.2.1.17 |
| 1L71 | MULTIPLE STABILIZING ALANINE REPLACEMENTS WITHIN ALPHA-HELIX 126-134 OF T4 LYSOZYME HAVE INDEPENDENT, ADDITIVE EFFECTS ON BOTH STRUCTURE AND STABILITY | 3.2.1.17 |
| 1L72 | MULTIPLE STABILIZING ALANINE REPLACEMENTS WITHIN ALPHA-HELIX 126-134 OF T4 LYSOZYME HAVE INDEPENDENT, ADDITIVE EFFECTS ON BOTH STRUCTURE AND STABILITY | 3.2.1.17 |
| 1L73 | MULTIPLE STABILIZING ALANINE REPLACEMENTS WITHIN ALPHA-HELIX 126-134 OF T4 LYSOZYME HAVE INDEPENDENT, ADDITIVE EFFECTS ON BOTH STRUCTURE AND STABILITY | 3.2.1.17 |
| 1L74 | MULTIPLE STABILIZING ALANINE REPLACEMENTS WITHIN ALPHA-HELIX 126-134 OF T4 LYSOZYME HAVE INDEPENDENT, ADDITIVE EFFECTS ON BOTH STRUCTURE AND STABILITY | 3.2.1.17 |
| 1L75 | MULTIPLE STABILIZING ALANINE REPLACEMENTS WITHIN ALPHA-HELIX 126-134 OF T4 LYSOZYME HAVE INDEPENDENT, ADDITIVE EFFECTS ON BOTH STRUCTURE AND STABILITY | 3.2.1.17 |
| 1L76 | TOLERANCE OF T4 LYSOZYME TO PROLINE SUBSTITUTIONS WITHIN THE LONG INTERDOMAIN ALPHA-HELIX ILLUSTRATES THE ADAPTABILITY OF PROTEINS TO POTENTIALLY DESTABILIZING LESIONS | 3.2.1.17 |
| 1L77 | DESIGN AND STRUCTURAL ANALYSIS OF ALTERNATIVE HYDROPHOBIC CORE PACKING ARRANGEMENTS IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L79 | DESIGN AND STRUCTURAL ANALYSIS OF ALTERNATIVE HYDROPHOBIC CORE PACKING ARRANGEMENTS IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L7A | STRUCTURAL GENOMICS, CRYSTAL STRUCTURE OF CEPHALOSPORIN C DEACETYLASE | 3.1.1.41 3.1.1.72 |
| 1L7F | CRYSTAL STRUCTURE OF INFLUENZA VIRUS NEURAMINIDASE IN COMPLEX WITH BCX-1812 | 3.2.1.18 |
| 1L7G | CRYSTAL STRUCTURE OF E119G MUTANT INFLUENZA VIRUS NEURAMINIDASE IN COMPLEX WITH BCX-1812 | 3.2.1.18 |
| 1L7H | CRYSTAL STRUCTURE OF R292K MUTANT INFLUENZA VIRUS NEURAMINIDASE IN COMPLEX WITH BCX-1812 | 3.2.1.18 |
| 1L7M | HIGH RESOLUTION LIGANDED STRUCTURE OF PHOSPHOSERINE PHOSPHATASE (PI COMPLEX) | 3.1.3.3 |
| 1L7N | TRANSITION STATE ANALOGUE OF PHOSPHOSERINE PHOSPHATASE (ALUMINUM FLUORIDE COMPLEX) | 3.1.3.3 |
| 1L7O | CRYSTAL STRUCTURE OF PHOSPHOSERINE PHOSPHATASE IN APO FORM | 3.1.3.3 |
| 1L7P | SUBSTRATE BOUND PHOSPHOSERINE PHOSPHATASE COMPLEX STRUCTURE | 3.1.3.3 |
| 1L7Q | SER117ALA MUTANT OF BACTERIAL COCAINE ESTERASE COCE | 3.1.1.1 3.1.1.84 |
| 1L7R | TYR44PHE MUTANT OF BACTERIAL COCAINE ESTERASE COCE | 3.1.1.1 3.1.1.84 |
| 1L80 | DESIGN AND STRUCTURAL ANALYSIS OF ALTERNATIVE HYDROPHOBIC CORE PACKING ARRANGEMENTS IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L81 | DESIGN AND STRUCTURAL ANALYSIS OF ALTERNATIVE HYDROPHOBIC CORE PACKING ARRANGEMENTS IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L82 | DESIGN AND STRUCTURAL ANALYSIS OF ALTERNATIVE HYDROPHOBIC CORE PACKING ARRANGEMENTS IN BACTERIOPHAGE T4 LYSOZYME | 3.2.1.17 |
| 1L83 | A CAVITY-CONTAINING MUTANT OF T4 LYSOZYME IS STABILIZED BY BURIED BENZENE | 3.2.1.17 |
| 1L84 | A CAVITY-CONTAINING MUTANT OF T4 LYSOZYME IS STABILIZED BY BURIED BENZENE | 3.2.1.17 |
| 1L85 | SIMILAR HYDROPHOBIC REPLACEMENTS OF LEU 99 AND PHE 153 WITHIN THE CORE OF T4 LYSOZYME HAVE DIFFERENT STRUCTURAL AND THERMODYNAMIC CONSEQUENCES | 3.2.1.17 |
| 1L86 | SIMILAR HYDROPHOBIC REPLACEMENTS OF LEU 99 AND PHE 153 WITHIN THE CORE OF T4 LYSOZYME HAVE DIFFERENT STRUCTURAL AND THERMODYNAMIC CONSEQUENCES | 3.2.1.17 |
| 1L87 | SIMILAR HYDROPHOBIC REPLACEMENTS OF LEU 99 AND PHE 153 WITHIN THE CORE OF T4 LYSOZYME HAVE DIFFERENT STRUCTURAL AND THERMODYNAMIC CONSEQUENCES | 3.2.1.17 |
| 1L88 | SIMILAR HYDROPHOBIC REPLACEMENTS OF LEU 99 AND PHE 153 WITHIN THE CORE OF T4 LYSOZYME HAVE DIFFERENT STRUCTURAL AND THERMODYNAMIC CONSEQUENCES | 3.2.1.17 |
| 1L89 | SIMILAR HYDROPHOBIC REPLACEMENTS OF LEU 99 AND PHE 153 WITHIN THE CORE OF T4 LYSOZYME HAVE DIFFERENT STRUCTURAL AND THERMODYNAMIC CONSEQUENCES | 3.2.1.17 |
| 1L8F | STRUCTURE OF 20K-ENDOGLUCANASE FROM MELANOCARPUS ALBOMYCES AT 1.8 A | 3.2.1.4 |
| 1L8G | CRYSTAL STRUCTURE OF PTP1B COMPLEXED WITH 7-(1,1-DIOXO-1H-BENZO[D]ISOTHIAZOL-3-YLOXYMETHYL)-2-(OXALYL-AMINO)-4,7-DIHYDRO-5H-THIENO[2,3-C]PYRAN-3-CARBOXYLIC ACID | 3.1.3.48 |
| 1L8K | T CELL PROTEIN-TYROSINE PHOSPHATASE STRUCTURE | 3.1.3.48 |
| 1L8L | MOLECULAR BASIS FOR THE LOCAL CONFOMATIONAL REARRANGEMENT OF HUMAN PHOSPHOSERINE PHOSPHATASE | 3.1.3.3 |
| 1L8N | THE 1.5A CRYSTAL STRUCTURE OF ALPHA-D-GLUCURONIDASE FROM BACILLUS STEAROTHERMOPHILUS T-1, COMPLEXED WITH 4-O-METHYL-GLUCURONIC ACID AND XYLOTRIOSE | 3.2.1.139 3.2.1.131 |
| 1L8O | MOLECULAR BASIS FOR THE LOCAL CONFORMATIONAL REARRANGEMENT OF HUMAN PHOSPHOSERINE PHOSPHATASE | 3.1.3.3 |
| 1L8S | CARBOXYLIC ESTER HYDROLASE COMPLEX (DIMERIC PLA2 + LPC-ETHER + ACETATE + PHOSPHATE IONS) | 3.1.1.4 |
| 1L90 | SIMILAR HYDROPHOBIC REPLACEMENTS OF LEU 99 AND PHE 153 WITHIN THE CORE OF T4 LYSOZYME HAVE DIFFERENT STRUCTURAL AND THERMODYNAMIC CONSEQUENCES | 3.2.1.17 |
| 1L91 | SIMILAR HYDROPHOBIC REPLACEMENTS OF LEU 99 AND PHE 153 WITHIN THE CORE OF T4 LYSOZYME HAVE DIFFERENT STRUCTURAL AND THERMODYNAMIC CONSEQUENCES | 3.2.1.17 |
| 1L92 | SIMILAR HYDROPHOBIC REPLACEMENTS OF LEU 99 AND PHE 153 WITHIN THE CORE OF T4 LYSOZYME HAVE DIFFERENT STRUCTURAL AND THERMODYNAMIC CONSEQUENCES | 3.2.1.17 |
| 1L93 | SIMILAR HYDROPHOBIC REPLACEMENTS OF LEU 99 AND PHE 153 WITHIN THE CORE OF T4 LYSOZYME HAVE DIFFERENT STRUCTURAL AND THERMODYNAMIC CONSEQUENCES | 3.2.1.17 |
| 1L94 | SIMILAR HYDROPHOBIC REPLACEMENTS OF LEU 99 AND PHE 153 WITHIN THE CORE OF T4 LYSOZYME HAVE DIFFERENT STRUCTURAL AND THERMODYNAMIC CONSEQUENCES | 3.2.1.17 |
| 1L95 | SIMILAR HYDROPHOBIC REPLACEMENTS OF LEU 99 AND PHE 153 WITHIN THE CORE OF T4 LYSOZYME HAVE DIFFERENT STRUCTURAL AND THERMODYNAMIC CONSEQUENCES | 3.2.1.17 |
| 1L96 | STRUCTURE OF A HINGE-BENDING BACTERIOPHAGE T4 LYSOZYME MUTANT, ILE3-> PRO | 3.2.1.17 |
| 1L97 | STRUCTURE OF A HINGE-BENDING BACTERIOPHAGE T4 LYSOZYME MUTANT, ILE3-> PRO | 3.2.1.17 |
| 1L98 | PERTURBATION OF TRP 138 IN T4 LYSOZYME BY MUTATIONS AT GLN 105 USED TO CORRELATE CHANGES IN STRUCTURE, STABILITY, SOLVATION, AND SPECTROSCOPIC PROPERTIES | 3.2.1.17 |
| 1L99 | PERTURBATION OF TRP 138 IN T4 LYSOZYME BY MUTATIONS AT GLN 105 USED TO CORRELATE CHANGES IN STRUCTURE, STABILITY, SOLVATION, AND SPECTROSCOPIC PROPERTIES | 3.2.1.17 |
| 1L9G | CRYSTAL STRUCTURE OF URACIL-DNA GLYCOSYLASE FROM T. MARITIMA | 3.2.2.27 |
| 1L9K | DENGUE METHYLTRANSFERASE | 2.7.7.48 3.4.21.91 3.6.1.15 3.6.4.13 2.1.1.56 2.1.1.57 |
| 1L9V | NON STRUCTURAL PROTEIN ENCODED BY GENE SEGMENT 8 OF ROTAVIRUS (NSP2), AN NTPASE, SSRNA BINDING AND NUCLEIC ACID HELIX-DESTABILIZING PROTEIN | 3.6.4 |
| 1L9X | STRUCTURE OF GAMMA-GLUTAMYL HYDROLASE | 3.4.19.9 |
| 1L9Y | FEZ-1-Y228A, A MUTANT OF THE METALLO-BETA-LACTAMASE FROM LEGIONELLA GORMANII | 3.5.2.6 |
| 1LAA | X-RAY STRUCTURE OF GLU 53 HUMAN LYSOZYME | 3.2.1.17 |
| 1LAM | LEUCINE AMINOPEPTIDASE (UNLIGATED) | 3.4.11.1 3.4.13.23 3.4.11.5 |
| 1LAN | LEUCINE AMINOPEPTIDASE COMPLEX WITH L-LEUCINAL | 3.4.11.1 3.4.13.23 3.4.11.5 |
| 1LAP | MOLECULAR STRUCTURE OF LEUCINE AMINOPEPTIDASE AT 2.7-ANGSTROMS RESOLUTION | 3.4.11.1 3.4.13.23 3.4.11.5 |
| 1LAR | CRYSTAL STRUCTURE OF THE TANDEM PHOSPHATASE DOMAINS OF RPTP LAR | 3.1.3.48 |
| 1LAV | STABILIZATION OF ESCHERICHIA COLI RIBONUCLEASE HI BY CAVITY-FILLING MUTATIONS WITHIN A HYDROPHOBIC CORE | 3.1.26.4 |
| 1LAW | STABILIZATION OF ESCHERICHIA COLI RIBONUCLEASE HI BY CAVITY-FILLING MUTATIONS WITHIN A HYDROPHOBIC CORE | 3.1.26.4 |
| 1LAY | CRYSTAL STRUCTURE OF CYTOMEGALOVIRUS PROTEASE | 3.4.21 3.4.21.97 |
| 1LBA | THE STRUCTURE OF BACTERIOPHAGE T7 LYSOZYME, A ZINC AMIDASE AND AN INHIBITOR OF T7 RNA POLYMERASE | 3.5.1.28 |
| 1LBE | APLYSIA ADP RIBOSYL CYCLASE | 3.2.2.5 3.2.2.6 2.4.99.20 |
| 1LBS | LIPASE (E.C.3.1.1.3) (TRIACYLGLYCEROL HYDROLASE) | 3.1.1.3 |
| 1LBT | LIPASE (E.C.3.1.1.3) (TRIACYLGLYCEROL HYDROLASE) | 3.1.1.3 |
| 1LBU | HYDROLASE METALLO (ZN) DD-PEPTIDASE | 3.4.17.8 3.4.17.14 |
| 1LBV | CRYSTAL STRUCTURE OF APO-FORM (P21) OF DUAL ACTIVITY FBPASE/IMPASE (AF2372) FROM ARCHAEOGLOBUS FULGIDUS | 3.1.3.11 3.1.3.25 |
| 1LBW | CRYSTAL STRUCTURE OF APO-FORM (P32) OF DUAL ACTIVITY FBPASE/IMPASE (AF2372) FROM ARCHAEOGLOBUS FULGIDUS | 3.1.3.11 3.1.3.25 |
| 1LBX | CRYSTAL STRUCTURE OF A TERNARY COMPLEX OF DUAL ACTIVITY FBPASE/IMPASE (AF2372) FROM ARCHAEOGLOBUS FULGIDUS WITH CALCIUM IONS AND D-MYO-INOSITOL-1-PHOSPHATE | 3.1.3.11 3.1.3.25 |
| 1LBY | CRYSTAL STRUCTURE OF A COMPLEX (P32 CRYSTAL FORM) OF DUAL ACTIVITY FBPASE/IMPASE (AF2372) FROM ARCHAEOGLOBUS FULGIDUS WITH 3 MANGANESE IONS, FRUCTOSE-6-PHOSPHATE, AND PHOSPHATE ION | 3.1.3.11 3.1.3.25 |
| 1LBZ | CRYSTAL STRUCTURE OF A COMPLEX (P32 CRYSTAL FORM) OF DUAL ACTIVITY FBPASE/IMPASE (AF2372) FROM ARCHAEOGLOBUS FULGIDUS WITH 3 CALCIUM IONS AND FRUCTOSE-1,6 BISPHOSPHATE | 3.1.3.11 3.1.3.25 |
| 1LCF | CRYSTAL STRUCTURE OF COPPER-AND OXALATE-SUBSTITUTED HUMAN LACTOFERRIN AT 2.0 ANGSTROMS RESOLUTION | 3.4.21 |
| 1LCL | CHARCOT-LEYDEN CRYSTAL PROTEIN | 3.1.1.5 |
| 1LCN | MONOCLINIC HEN EGG WHITE LYSOZYME, THIOCYANATE COMPLEX | 3.2.1.17 |
| 1LCP | BOVINE LENS LEUCINE AMINOPEPTIDASE COMPLEXED WITH L-LEUCINE PHOSPHONIC ACID | 3.4.11.1 3.4.13.23 3.4.11.5 |
| 1LCT | STRUCTURE OF THE RECOMBINANT N-TERMINAL LOBE OF HUMAN LACTOFERRIN AT 2.0 ANGSTROMS RESOLUTION | 3.4.21 |
| 1LCY | CRYSTAL STRUCTURE OF THE MITOCHONDRIAL SERINE PROTEASE HTRA2 | 3.4.21 3.4.21.108 |
| 1LD4 | PLACEMENT OF THE STRUCTURAL PROTEINS IN SINDBIS VIRUS | 3.4.21 3.4.21.90 |
| 1LE6 | CARBOXYLIC ESTER HYDROLASE, P 1 21 1 SPACE GROUP | 3.1.1.4 |
| 1LE7 | CARBOXYLIC ESTER HYDROLASE, C 2 2 21 SPACE GROUP | 3.1.1.4 |
| 1LEA | SOLUTION STRUCTURE OF THE LEXA REPRESSOR DNA BINDING DETERMINED BY 1H NMR SPECTROSCOPY | 3.4.21.88 |
| 1LEB | SOLUTION STRUCTURE OF THE LEXA REPRESSOR DNA BINDING DETERMINED BY 1H NMR SPECTROSCOPY | 3.4.21.88 |
| 1LEE | CRYSTAL STRUCTURE OF PLASMEPSIN FROM P. FALCIPARUM IN COMPLEX WITH INHIBITOR RS367 | 3.4.23.39 |
| 1LEV | PORCINE KIDNEY FRUCTOSE-1,6-BISPHOSPHATASE COMPLEXED WITH AN AMP-SITE INHIBITOR | 3.1.3.11 |
| 1LF0 | CRYSTAL STRUCTURE OF RASA59G IN THE GTP-BOUND FORM | 3.6.5.2 |
| 1LF1 | CRYSTAL STRUCTURE OF CEL5 FROM ALKALOPHILIC BACILLUS SP. | 3.2.1.4 |
| 1LF2 | CRYSTAL STRUCTURE OF PLASMEPSIN II FROM P FALCIPARUM IN COMPLEX WITH INHIBITOR RS370 | 3.4.23.39 |
| 1LF3 | CRYSTAL STRUCTURE OF PLASMEPSIN II FROM P FALCIPARUM IN COMPLEX WITH INHIBITOR EH58 | 3.4.23.39 |
| 1LF4 | STRUCTURE OF PLASMEPSIN II | 3.4.23.39 |
| 1LF5 | CRYSTAL STRUCTURE OF RASA59G IN THE GDP-BOUND FORM | 3.6.5.2 |
| 1LF6 | CRYSTAL STRUCTURE OF BACTERIAL GLUCOAMYLASE | 3.2.1.3 |
| 1LF9 | CRYSTAL STRUCTURE OF BACTERIAL GLUCOAMYLASE COMPLEXED WITH ACARBOSE | 3.2.1.3 |
| 1LFC | BOVINE LACTOFERRICIN (LFCINB), NMR, 20 STRUCTURES | 3.4.21 |
| 1LFG | STRUCTURE OF DIFERRIC HUMAN LACTOFERRIN | 3.4.21 |
| 1LFH | MOLECULAR REPLACEMENT SOLUTION OF THE STRUCTURE OF APOLACTOFERRIN, A PROTEIN DISPLAYING LARGE-SCALE CONFORMATIONAL CHANGE | 3.4.21 |
| 1LFI | METAL SUBSTITUTION IN TRANSFERRINS: THE CRYSTAL STRUCTURE OF HUMAN COPPER-LACTOFERRIN AT 2.1 ANGSTROMS RESOLUTION | 3.4.21 |
| 1LFW | CRYSTAL STRUCTURE OF PEPV | 3.4.13.3 3.4.13 |
| 1LG1 | CRYSTAL STRUCTURE OF HUMAN CHITOTRIOSIDASE IN COMPLEX WITH CHITOBIOSE | 3.2.1.14 |
| 1LG2 | CRYSTAL STRUCTURE OF HUMAN CHITOTRIOSIDASE IN COMPLEX WITH ETHYLENE GLYCOL | 3.2.1.14 |
| 1LGU | T4 LYSOZYME MUTANT L99A/M102Q | 3.2.1.17 |
| 1LGW | T4 LYSOZYME MUTANT L99A/M102Q BOUND BY 2-FLUOROANILINE | 3.2.1.17 |
| 1LGX | T4 LYSOZYME MUTANT L99A/M102Q BOUND BY 3,5-DIFLUOROANILINE | 3.2.1.17 |
| 1LGY | LIPASE II FROM RHIZOPUS NIVEUS | 3.1.1.3 |
| 1LHC | HUMAN ALPHA-THROMBIN COMPLEXED WITH AC-(D)PHE-PRO-BOROARG-OH | 3.4.21.5 |
| 1LHD | HUMAN ALPHA-THROMBIN COMPLEXED WITH AC-(D)PHE-PRO-BOROLYS-OH | 3.4.21.5 |
| 1LHE | HUMAN ALPHA-THROMBIN COMPLEXED WITH AC-(D)PHE-PRO-BORO-N-BUTYL-AMIDINO-GLYCINE-OH | 3.4.21.5 |
| 1LHF | HUMAN ALPHA-THROMBIN COMPLEXED WITH AC-(D)PHE-PRO-BORO-HOMOLYS-OH | 3.4.21.5 |
| 1LHG | HUMAN ALPHA-THROMBIN COMPLEXED WITH AC-(D)PHE-PRO-BOROORNITHINE-OH | 3.4.21.5 |
| 1LHH | ROLE OF PROLINE RESIDUES IN HUMAN LYSOZYME STABILITY: A SCANNING CALORIMETRIC STUDY COMBINED WITH X-RAY STRUCTURE ANALYSIS OF PROLINE MUTANTS | 3.2.1.17 |
| 1LHI | ROLE OF PROLINE RESIDUES IN HUMAN LYSOZYME STABILITY: A SCANNING CALORIMETRIC STUDY COMBINED WITH X-RAY STRUCTURE ANALYSIS OF PROLINE MUTANTS | 3.2.1.17 |
| 1LHJ | ROLE OF PROLINE RESIDUES IN HUMAN LYSOZYME STABILITY: A SCANNING CALORIMETRIC STUDY COMBINED WITH X-RAY STRUCTURE ANALYSIS OF PROLINE MUTANTS | 3.2.1.17 |
| 1LHK | ROLE OF PROLINE RESIDUES IN HUMAN LYSOZYME STABILITY: A SCANNING CALORIMETRIC STUDY COMBINED WITH X-RAY STRUCTURE ANALYSIS OF PROLINE MUTANTS | 3.2.1.17 |
| 1LHL | ROLE OF PROLINE RESIDUES IN HUMAN LYSOZYME STABILITY: A SCANNING CALORIMETRIC STUDY COMBINED WITH X-RAY STRUCTURE ANALYSIS OF PROLINE MUTANTS | 3.2.1.17 |
| 1LHM | THE CRYSTAL STRUCTURE OF A MUTANT LYSOZYME C77(SLASH)95A WITH INCREASED SECRETION EFFICIENCY IN YEAST | 3.2.1.17 |
| 1LHY | CRYSTAL STRUCTURE OF TEM-30 BETA-LACTAMASE AT 2.0 ANGSTROM | 3.5.2.6 |
| 1LI0 | CRYSTAL STRUCTURE OF TEM-32 BETA-LACTAMASE AT 1.6 ANGSTROM | 3.5.2.6 |
| 1LI2 | T4 LYSOZYME MUTANT L99A/M102Q BOUND BY PHENOL | 3.2.1.17 |
| 1LI3 | T4 LYSOZYME MUTANT L99A/M102Q BOUND BY 3-CHLOROPHENOL | 3.2.1.17 |
| 1LI4 | HUMAN S-ADENOSYLHOMOCYSTEINE HYDROLASE COMPLEXED WITH NEPLANOCIN | 3.3.1.1 |
| 1LI6 | T4 LYSOZYME MUTANT L99A/M102Q BOUND BY 5-METHYLPYRROLE | 3.2.1.17 |
| 1LI9 | CRYSTAL STRUCTURE OF TEM-34 BETA-LACTAMASE AT 1.5 ANGSTROM | 3.5.2.6 |
| 1LJ3 | CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN AT PH 4.6 | 3.2.1.17 |
| 1LJ4 | CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN AT PH 4.6 | 3.2.1.17 |
| 1LJE | CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN IN PRESENCE OF 10% SUCROSE | 3.2.1.17 |
| 1LJF | CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN IN PRESENCE OF 10% SUCROSE | 3.2.1.17 |
| 1LJG | CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN IN PRESENCE OF 5% GLYCEROL | 3.2.1.17 |
| 1LJH | CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN IN PRESENCE OF 5% GLYCEROL | 3.2.1.17 |
| 1LJI | CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN IN PRESENCE 10% SORBITOL | 3.2.1.17 |
| 1LJJ | CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN IN PRESENCE OF 10% TREHALOSE | 3.2.1.17 |
| 1LJK | CRYSTAL STRUCTURE OF MONOCLINIC LYSOZYME GROWN IN PRESENCE OF 15% TREHALOSE | 3.2.1.17 |
| 1LJN | CRYSTAL STRUCTURE OF TUEKEY EGG LYSOZYME COMPLEX WITH DI-N-ACETYLCHITOBIOSE AT 1.19A RESOLUTION | 3.2.1.17 |
| 1LKA | PORCINE PANCREATIC ELASTASE/CA-COMPLEX | 3.4.21.36 |
| 1LKB | PORCINE PANCREATIC ELASTASE/NA-COMPLEX | 3.4.21.36 |
| 1LKR | MONOCLINIC HEN EGG WHITE LYSOZYME IODIDE | 3.2.1.17 |
| 1LKS | HEN EGG WHITE LYSOZYME NITRATE | 3.2.1.17 |
| 1LKT | CRYSTAL STRUCTURE OF THE HEAD-BINDING DOMAIN OF PHAGE P22 TAILSPIKE PROTEIN | 3.2.1 |
| 1LL5 | X-RAY CRYSTAL STRUCTURE OF AMPC WT BETA-LACTAMASE IN COMPLEX WITH COVALENTLY BOUND IMIPENEM | 3.5.2.6 |
| 1LL6 | STRUCTURE OF THE D169N MUTANT OF C. IMMITIS CHITINASE 1 | 3.2.1.14 |
| 1LL7 | STRUCTURE OF THE E171Q MUTANT OF C. IMMITIS CHITINASE 1 | 3.2.1.14 |
| 1LL9 | CRYSTAL STRUCTURE OF AMPC BETA-LACTAMASE FROM E. COLI IN COMPLEX WITH AMOXICILLIN | 3.5.2.6 |
| 1LLB | CRYSTAL STRUCTURE OF AMPC BETA-LACTAMASE FROM E. COLI IN COMPLEX WITH ATMO-PENICILLIN | 3.5.2.6 |
| 1LLF | CHOLESTEROL ESTERASE (CANDIDA CYLINDRACEA) CRYSTAL STRUCTURE AT 1.4A RESOLUTION | 3.1.1.3 |
| 1LLH | ARE CARBOXY TERMINII OF HELICES CODED BY THE LOCAL SEQUENCE OR BY TERTIARY STRUCTURE CONTACTS | 3.2.1.17 |
| 1LLN | 1.6A CRYSTAL STRUCTURE OF POKEWEED ANTIVIRAL PROTEIN-III (PAP-III) WITH METHYLATED LYSINES | 3.2.2.22 |
| 1LLO | HEVAMINE A (A PLANT ENDOCHITINASE/LYSOZYME) COMPLEXED WITH ALLOSAMIDIN | 3.2.1.14 3.2.1.17 |
| 1LM4 | STRUCTURE OF PEPTIDE DEFORMYLASE FROM STAPHYLOCOCCUS AUREUS AT 1.45 A | 3.5.1.88 |
| 1LM6 | CRYSTAL STRUCTURE OF PEPTIDE DEFORMYLASE FROM STREPTOCOCCUS PNEUMONIAE | 3.5.1.88 |
| 1LMA | PROTEIN HYDRATION AND WATER STRUCTURE: X-RAY ANALYSIS OF A CLOSELY PACKED PROTEIN CRYSTAL WITH VERY LOW SOLVENT CONTENT | 3.2.1.17 |
| 1LMC | THE CRYSTAL STRUCTURE OF A COMPLEX BETWEEN BULGECIN, A BACTERIAL METABOLITE, AND LYSOZYME FROM THE RAINBOW TROUT | 3.2.1.17 |
| 1LME | CRYSTAL STRUCTURE OF PEPTIDE DEFORMYLASE FROM THERMOTOGA MARITIMA | 3.5.1.88 |
| 1LMH | CRYSTAL STRUCTURE OF S. AUREUS PEPTIDE DEFORMYLASE | 3.5.1.27 3.5.1.88 |
| 1LML | LEISHMANOLYSIN | 3.4.24.36 |
| 1LMN | THE REFINED CRYSTAL STRUCTURE OF LYSOZYME FROM THE RAINBOW TROUT (ONCORHYNCHUS MYKISS) | 3.2.1.17 |
| 1LMO | THE CRYSTAL STRUCTURES OF THREE COMPLEXES BETWEEN CHITOOLIGOSACCHARIDES AND LYSOZYME FROM THE RAINBOW TROUT | 3.2.1.17 |
| 1LMP | THE CRYSTAL STRUCTURES OF THREE COMPLEXES BETWEEN CHITOOLIGOSACCHARIDES AND LYSOZYME FROM THE RAINBOW TROUT | 3.2.1.17 |
| 1LMQ | THE CRYSTAL STRUCTURES OF THREE COMPLEXES BETWEEN CHITOOLIGOSACCHARIDES AND LYSOZYME FROM THE RAINBOW TROUT | 3.2.1.17 |
| 1LMT | STRUCTURE OF A CONFORMATIONALLY CONSTRAINED ARG-GLY-ASP SEQUENCE INSERTED INTO HUMAN LYSOZYME | 3.2.1.17 |
| 1LMW | LMW U-PA STRUCTURE COMPLEXED WITH EGRCMK (GLU-GLY-ARG CHLOROMETHYL KETONE) | 3.4.21.73 |
| 1LMZ | SOLUTION STRUCTURE OF 3-METHYLADENINE DNA GLYCOSYLASE I (TAG) | 3.2.2.20 |
| 1LN0 | STRUCTURE OF THE CATALYTIC DOMAIN OF HOMING ENDONUCLEASE I-TEVI | 3.1 |
| 1LN8 | CRYSTAL STRUCTURE OF A NEW ISOFORM OF PHOSPHOLIPASE A2 FROM NAJA NAJA SAGITTIFERA AT 1.6 A RESOLUTION | 3.1.1.4 |
| 1LNA | A STRUCTURAL ANALYSIS OF METAL SUBSTITUTIONS IN THERMOLYSIN | 3.4.24.27 |
| 1LNB | A STRUCTURAL ANALYSIS OF METAL SUBSTITUTIONS IN THERMOLYSIN | 3.4.24.27 |
| 1LNC | A STRUCTURAL ANALYSIS OF METAL SUBSTITUTIONS IN THERMOLYSIN | 3.4.24.27 |
| 1LND | A STRUCTURAL ANALYSIS OF METAL SUBSTITUTIONS IN THERMOLYSIN | 3.4.24.27 |
| 1LNE | A STRUCTURAL ANALYSIS OF METAL SUBSTITUTIONS IN THERMOLYSIN | 3.4.24.27 |
| 1LNF | A STRUCTURAL ANALYSIS OF METAL SUBSTITUTIONS IN THERMOLYSIN | 3.4.24.27 |
| 1LNI | CRYSTAL STRUCTURE ANALYSIS OF A RIBONUCLEASE FROM STREPTOMYCES AUREOFACIENS AT ATOMIC RESOLUTION (1.0 A) | 3.1.27.3 4.6.1.24 |
| 1LNS | CRYSTAL STRUCTURE ANALYSIS OF THE X-PROLYL DIPEPTIDYL AMINOPEPTIDASE FROM LACTOCOCCUS LACTIS | 3.4.14.11 |
| 1LNZ | STRUCTURE OF THE OBG GTP-BINDING PROTEIN | 3.6.5 |
| 1LO6 | HUMAN KALLIKREIN 6 (HK6) ACTIVE FORM WITH BENZAMIDINE INHIBITOR AT 1.56 A RESOLUTION | 3.4.21 |
| 1LO7 | X-RAY STRUCTURE OF 4-HYDROXYBENZOYL COA THIOESTERASE COMPLEXED WITH 4-HYDROXYPHENACYL COA | 3.1.2.23 |
| 1LO8 | X-RAY CRYSTAL STRUCTURE OF 4-HYDROXYBENZOYL COA THIOESTERASE COMPLEXED WITH 4-HYDROXYBENZYL COA | 3.1.2.23 |
| 1LO9 | X-RAY CRYSTAL STRUCTURE OF 4-HYDROXYBENZOYL COA THIOESTERASE MUTANT D17N COMPLEXED WITH 4-HYDROXYBENZOYL COA | 3.1.2.23 |
| 1LOI | N-TERMINAL SPLICE REGION OF RAT C-AMP PHOSPHODIESTERASE, NMR, 7 STRUCTURES | 3.1.4.17 3.1.4.53 |
| 1LOK | THE 1.20 ANGSTROM RESOLUTION CRYSTAL STRUCTURE OF THE AMINOPEPTIDASE FROM AEROMONAS PROTEOLYTICA COMPLEXED WITH TRIS: A TALE OF BUFFER INHIBITION | 3.4.11.10 |
| 1LOV | X-RAY STRUCTURE OF THE E58A MUTANT OF RIBONUCLEASE T1 COMPLEXED WITH 3'-GUANOSINE MONOPHOSPHATE | 3.1.27.3 4.6.1.24 |
| 1LOW | X-RAY STRUCTURE OF THE H40A MUTANT OF RIBONUCLEASE T1 COMPLEXED WITH 3'-GUANOSINE MONOPHOSPHATE | 3.1.27.3 4.6.1.24 |
| 1LOY | X-RAY STRUCTURE OF THE H40A/E58A MUTANT OF RIBONUCLEASE T1 COMPLEXED WITH 3'-GUANOSINE MONOPHOSPHATE | 3.1.27.3 4.6.1.24 |
| 1LOZ | AMYLOIDOGENIC VARIANT (I56T) VARIANT OF HUMAN LYSOZYME | 3.2.1.17 |
| 1LP8 | HIGH RESOLUTION STRUCTURE OF RECOMBINANT DIANTHIN ANTIVIRAL PROTEIN-POTENT ANTI-HIV AGENT | 3.2.2.22 |
| 1LPC | HIGH RESOLUTION STRUCTURE OF RECOMBINANT DIANTHIN ANTIVIRAL PROTEIN-POTENT ANTI-HIV AGENT (COMPLEX WITH CYCLIC AMP) | 3.2.2.22 |
| 1LPD | HIGH RESOLUTION STRUCTURE OF RECOMBINANT DIANTHIN ANTIVIRAL PROTEIN-POTENT ANTI-HIV AGENT (COMPLEX WITH ADENINE) | 3.2.2.22 |
| 1LPG | CRYSTAL STRUCTURE OF FXA IN COMPLEX WITH 79. | 3.4.21.6 |
| 1LPI | HEW LYSOZYME: TRP...NA CATION-PI INTERACTION | 3.2.1.17 |
| 1LPK | CRYSTAL STRUCTURE OF FXA IN COMPLEX WITH 125. | 3.4.21.6 |
| 1LPM | A STRUCTURAL BASIS FOR THE CHIRAL PREFERENCES OF LIPASES | 3.1.1.3 |
| 1LPN | ANALOGS OF REACTION INTERMEDIATES IDENTIFY A UNIQUE SUBSTRATE BINDING SITE IN CANDIDA RUGOSA LIPASE | 3.1.1.3 |
| 1LPO | ANALOGS OF REACTION INTERMEDIATES IDENTIFY A UNIQUE SUBSTRATE BINDING SITE IN CANDIDA RUGOSA LIPASE | 3.1.1.3 |
| 1LPP | ANALOGS OF REACTION INTERMEDIATES IDENTIFY A UNIQUE SUBSTRATE BINDING SITE IN CANDIDA RUGOSA LIPASE | 3.1.1.3 |
| 1LPS | A STRUCTURAL BASIS FOR THE CHIRAL PREFERENCES OF LIPASES | 3.1.1.3 |
| 1LPY | MULTIPLE METHIONINE SUBSTITUTIONS IN T4 LYSOZYME | 3.2.1.17 |
| 1LPZ | CRYSTAL STRUCTURE OF FXA IN COMPLEX WITH 41. | 3.4.21.6 |
| 1LQ0 | CRYSTAL STRUCTURE OF HUMAN CHITOTRIOSIDASE AT 2.2 ANGSTROM RESOLUTION | 3.2.1.14 |
| 1LQ2 | CRYSTAL STRUCTURE OF BARLEY BETA-D-GLUCAN GLUCOHYDROLASE ISOENZYME EXO1 IN COMPLEX WITH GLUCO-PHENYLIMIDAZOLE | 3.2.1.58 |
| 1LQD | CRYSTAL STRUCTURE OF FXA IN COMPLEX WITH 45. | 3.4.21.6 |
| 1LQE | CRYSTAL STRUCTURE OF TRYPSIN IN COMPLEX WITH 79. | 3.4.21.4 |
| 1LQF | STRUCTURE OF PTP1B IN COMPLEX WITH A PEPTIDIC BISPHOSPHONATE INHIBITOR | 3.1.3.48 |
| 1LQG | ESCHERICHIA COLI URACIL-DNA GLYCOSYLASE COMPLEX WITH URACIL-DNA GLYCOSYLASE INHIBITOR PROTEIN | 3.2.2 3.2.2.27 |
| 1LQJ | ESCHERICHIA COLI URACIL-DNA GLYCOSYLASE | 3.2.2 3.2.2.27 |
| 1LQM | ESCHERICHIA COLI URACIL-DNA GLYCOSYLASE COMPLEX WITH URACIL-DNA GLYCOSYLASE INHIBITOR PROTEIN | 3.2.2 3.2.2.27 |
| 1LQW | CRYSTAL STRUCTURE OF S.AUREUS PEPTIDE DEFORMYLASE | 3.5.1.88 |
| 1LQY | CRYSTAL STRUCTURE OF BACILLUS STEAROTHERMOPHILUS PEPTIDE DEFORMYLASE COMPLEXED WITH ANTIBIOTIC ACTINONIN | 3.5.1.88 |
| 1LRA | CRYSTALLOGRAPHIC STUDY OF GLU 58 ALA RNASE T1(ASTERISK)2'-GUANOSINE MONOPHOSPHATE AT 1.9 ANGSTROMS RESOLUTION | 3.1.27.3 4.6.1.24 |
| 1LRU | CRYSTAL STRUCTURE OF E.COLI PEPTIDE DEFORMYLASE COMPLEXED WITH ANTIBIOTIC ACTINONIN | 3.5.1.88 |
| 1LRY | CRYSTAL STRUCTURE OF P. AERUGINOSA PEPTIDE DEFORMYLASE COMPLEXED WITH ANTIBIOTIC ACTINONIN | 3.5.1.88 |
| 1LS5 | CRYSTAL STRUCTURE OF PLASMEPSIN IV FROM P. FALCIPARUM IN COMPLEX WITH PEPSTATIN A | 3.4.23 |
| 1LSA | THE INFLUENCE OF TEMPERATURE ON LYSOZYME CRYSTALS. STRUCTURE AND DYNAMICS OF PROTEIN AND WATER | 3.2.1.17 |
| 1LSB | THE INFLUENCE OF TEMPERATURE ON LYSOZYME CRYSTALS. STRUCTURE AND DYNAMICS OF PROTEIN AND WATER | 3.2.1.17 |
| 1LSC | THE INFLUENCE OF TEMPERATURE ON LYSOZYME CRYSTALS. STRUCTURE AND DYNAMICS OF PROTEIN AND WATER | 3.2.1.17 |
| 1LSD | THE INFLUENCE OF TEMPERATURE ON LYSOZYME CRYSTALS. STRUCTURE AND DYNAMICS OF PROTEIN AND WATER | 3.2.1.17 |
| 1LSE | THE INFLUENCE OF TEMPERATURE ON LYSOZYME CRYSTALS. STRUCTURE AND DYNAMICS OF PROTEIN AND WATER | 3.2.1.17 |
| 1LSF | THE INFLUENCE OF TEMPERATURE ON LYSOZYME CRYSTALS. STRUCTURE AND DYNAMICS OF PROTEIN AND WATER | 3.2.1.17 |
| 1LSG | THREE-DIMENSIONAL STRUCTURE OF THE PLATELET INTEGRIN RECOGNITION SEGMENT OF THE FIBRINOGEN GAMMA CHAIN OBTAINED BY CARRIER PROTEIN-DRIVEN CRYSTALLIZATION | 3.2.1.17 |
| 1LSM | THERMAL STABILITY DETERMINANTS OF CHICKEN EGG-WHITE LYSOZYME CORE MUTANTS: HYDROPHOBICITY, PACKING VOLUME AND CONSERVED BURIED WATER MOLECULES | 3.2.1.17 |
| 1LSN | THERMAL STABILITY DETERMINANTS OF CHICKEN EGG-WHITE LYSOZYME CORE MUTANTS: HYDROPHOBICITY, PACKING VOLUME AND CONSERVED BURIED WATER MOLECULES | 3.2.1.17 |
| 1LSP | THE CRYSTAL STRUCTURE OF A BULGECIN-INHIBITED G-TYPE LYSOZYME FROM THE EGG-WHITE OF THE AUSTRALIAN BLACK SWAN. A COMPARISON OF THE BINDING OF BULGECIN TO THREE MURAMIDASES | 3.2.1.17 |
| 1LSQ | RIBONUCLEASE A WITH ASN 67 REPLACED BY A BETA-ASPARTYL RESIDUE | 3.1.27.5 4.6.1.18 |
| 1LSY | CRYSTAL STRUCTURE OF THE MUTANT D52S HEN EGG WHITE LYSOZYME WITH AN OLIGOSACCHARIDE PRODUCT | 3.2.1.17 |
| 1LSZ | CRYSTAL STRUCTURE OF THE MUTANT D52S HEN EGG WHITE LYSOZYME WITH AN OLIGOSACCHARIDE PRODUCT | 3.2.1.17 |
| 1LTL | THE DODECAMER STRUCTURE OF MCM FROM ARCHAEAL M. THERMOAUTOTROPHICUM | 3.6.4.12 |
| 1LTM | ACCELERATED X-RAY STRUCTURE ELUCIDATION OF A 36 KDA MURAMIDASE/TRANSGLYCOSYLASE USING WARP | 3.2.1 4.2.2 |
| 1LTO | HUMAN ALPHA1-TRYPTASE | 3.4.21.59 |
| 1LTQ | CRYSTAL STRUCTURE OF T4 POLYNUCLEOTIDE KINASE | 2.7.1.78 3.1.3.34 |
| 1LV1 | CRYSTAL STRUCTURE ANALYSIS OF THE NON-ACTIVE SITE MUTANT OF TETHERED HIV-1 PROTEASE TO 2.1A RESOLUTION | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1LV7 | CRYSTAL STRUCTURE OF THE AAA DOMAIN OF FTSH | 3.4.24 |
| 1LVB | CATALYTICALLY INACTIVE TOBACCO ETCH VIRUS PROTEASE COMPLEXED WITH SUBSTRATE | 3.4 3.4.22.45 3.6.4 3.4.22.44 2.7.7.48 |
| 1LVM | CATALYTICALLY ACTIVE TOBACCO ETCH VIRUS PROTEASE COMPLEXED WITH PRODUCT | 3.4 3.4.22.45 3.6.4 3.4.22.44 2.7.7.48 |
| 1LVO | STRUCTURE OF CORONAVIRUS MAIN PROTEINASE REVEALS COMBINATION OF A CHYMOTRYPSIN FOLD WITH AN EXTRA ALPHA-HELICAL DOMAIN | 3.4.19.12 3.4.22 2.7.7.48 3.6.4.12 3.6.4.13 3.1.13 3.1 2.1.1 |
| 1LVY | PORCINE ELASTASE | 3.4.21.36 |
| 1LW0 | CRYSTAL STRUCTURE OF T215Y MUTANT HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH NEVIRAPINE | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1LW2 | CRYSTAL STRUCTURE OF T215Y MUTANT HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH 1051U91 | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1LW3 | CRYSTAL STRUCTURE OF MYOTUBULARIN-RELATED PROTEIN 2 COMPLEXED WITH PHOSPHATE | 3.1.3.64 3.1.3.95 |
| 1LW6 | CRYSTAL STRUCTURE OF THE COMPLEX OF SUBTILISIN BPN' WITH CHYMOTRYPSIN INHIBITOR 2 AT 1.5 ANGSTROM RESOLUTION | 3.4.21.62 |
| 1LW9 | MULTIPLE METHIONINE SUBSTITUTIONS ARE TOLERATED IN T4 LYSOZYME AND HAVE COUPLED EFFECTS ON FOLDING AND STABILITY | 3.2.1.17 |
| 1LWB | CRYSTAL STRUCTURE OF PROKARYOTIC PHOSPHOLIPASE A2 AT ATOMIC RESOLUTION | 3.1.1.4 |
| 1LWC | CRYSTAL STRUCTURE OF M184V MUTANT HIV-1 REVERSE TRANSCRIPTASE IN COMPLEX WITH NEVIRAPINE | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1LWE | CRYSTAL STRUCTURE OF M41L/T215Y MUTANT HIV-1 REVERSE TRANSCRIPTASE (RTMN) IN COMPLEX WITH NEVIRAPINE | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1LWF | CRYSTAL STRUCTURE OF A MUTANT HIV-1 REVERSE TRANSCRIPTASE (RTMQ+M184V: M41L/D67N/K70R/M184V/T215Y) IN COMPLEX WITH NEVIRAPINE | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1LWG | MULTIPLE METHIONINE SUBSTITUTIONS ARE TOLERATED IN T4 LYSOZYME AND HAVE COUPLED EFFECTS ON FOLDING AND STABILITY | 3.2.1.17 |
| 1LWK | MULTIPLE METHIONINE SUBSTITUTIONS ARE TOLERATED IN T4 LYSOZYME AND HAVE COUPLED EFFECTS ON FOLDING AND STABILITY | 3.2.1.17 |
| 1LWS | CRYSTAL STRUCTURE OF THE INTEIN HOMING ENDONUCLEASE PI-SCEI BOUND TO ITS RECOGNITION SEQUENCE | 3.1 7.1.2.2 |
| 1LWT | CRYSTAL STRUCTURE OF THE INTEIN HOMING ENDONUCLEASE PI-SCEI BOUND TO ITS SUBSTRATE DNA (CA2+ FREE) | 3.1 7.1.2.2 |
| 1LWV | BOROHYDRIDE-TRAPPED HOGG1 INTERMEDIATE STRUCTURE CO-CRYSTALLIZED WITH 8-AMINOGUANINE | 3.2.2 4.2.99.18 |
| 1LWW | BOROHYDRIDE-TRAPPED HOGG1 INTERMEDIATE STRUCTURE CO-CRYSTALLIZED WITH 8-BROMOGUANINE | 3.2.2 4.2.99.18 |
| 1LWY | HOGG1 BOROHYDRIDE-TRAPPED INTERMEDIATE WITHOUT 8-OXOGUANINE | 3.2.2 4.2.99.18 |
| 1LXY | CRYSTAL STRUCTURE OF ARGININE DEIMINASE COVALENTLY LINKED WITH L-CITRULLINE | 3.5.3.6 |
| 1LY1 | STRUCTURE AND MECHANISM OF T4 POLYNUCLEOTIDE KINASE | 2.7.1.78 3.1.3.34 |
| 1LYA | CRYSTAL STRUCTURES OF NATIVE AND INHIBITED FORMS OF HUMAN CATHEPSIN D: IMPLICATIONS FOR LYSOSOMAL TARGETING AND DRUG DESIGN | 3.4.23.5 |
| 1LYB | CRYSTAL STRUCTURES OF NATIVE AND INHIBITED FORMS OF HUMAN CATHEPSIN D: IMPLICATIONS FOR LYSOSOMAL TARGETING AND DRUG DESIGN | 3.4.23.5 |
| 1LYD | CRYSTAL STRUCTURE OF T4-LYSOZYME GENERATED FROM SYNTHETIC CODING DNA EXPRESSED IN ESCHERICHIA COLI | 3.2.1.17 |
| 1LYE | DISSECTION OF HELIX CAPPING IN T4 LYSOZYME BY STRUCTURAL AND THERMODYNAMIC ANALYSIS OF SIX AMINO ACID SUBSTITUTIONS AT THR 59 | 3.2.1.17 |
| 1LYF | DISSECTION OF HELIX CAPPING IN T4 LYSOZYME BY STRUCTURAL AND THERMODYNAMIC ANALYSIS OF SIX AMINO ACID SUBSTITUTIONS AT THR 59 | 3.2.1.17 |
| 1LYG | DISSECTION OF HELIX CAPPING IN T4 LYSOZYME BY STRUCTURAL AND THERMODYNAMIC ANALYSIS OF SIX AMINO ACID SUBSTITUTIONS AT THR 59 | 3.2.1.17 |
| 1LYH | DISSECTION OF HELIX CAPPING IN T4 LYSOZYME BY STRUCTURAL AND THERMODYNAMIC ANALYSIS OF SIX AMINO ACID SUBSTITUTIONS AT THR 59 | 3.2.1.17 |
| 1LYI | DISSECTION OF HELIX CAPPING IN T4 LYSOZYME BY STRUCTURAL AND THERMODYNAMIC ANALYSIS OF SIX AMINO ACID SUBSTITUTIONS AT THR 59 | 3.2.1.17 |
| 1LYJ | DISSECTION OF HELIX CAPPING IN T4 LYSOZYME BY STRUCTURAL AND THERMODYNAMIC ANALYSIS OF SIX AMINO ACID SUBSTITUTIONS AT THR 59 | 3.2.1.17 |
| 1LYO | CROSS-LINKED LYSOZYME CRYSTAL IN NEAT WATER | 3.2.1.17 |
| 1LYS | X-RAY STRUCTURE OF A MONOCLINIC FORM OF HEN EGG-WHITE LYSOZYME CRYSTALLIZED AT 313K. COMPARISON OF TWO INDEPENDENT MOLECULES | 3.2.1.17 |
| 1LYV | HIGH-RESOLUTION STRUCTURE OF THE CATALYTICALLY INACTIVE YERSINIA TYROSINE PHOSPHATASE C403A MUTANT IN COMPLEX WITH PHOSPHATE. | 3.1.3.48 |
| 1LYW | CATHEPSIN D AT PH 7.5 | 3.4.23.5 |
| 1LYY | AMYLOIDOGENIC VARIANT (ASP67HIS) OF HUMAN LYSOZYME | 3.2.1.17 |
| 1LYZ | REAL-SPACE REFINEMENT OF THE STRUCTURE OF HEN EGG-WHITE LYSOZYME | 3.2.1.17 |
| 1LZ1 | REFINEMENT OF HUMAN LYSOZYME AT 1.5 ANGSTROMS RESOLUTION. ANALYSIS OF NON-BONDED AND HYDROGEN-BOND INTERACTIONS | 3.2.1.17 |
| 1LZ2 | CRYSTALLOGRAPHIC STUDY OF TURKEY EGG-WHITE LYSOZYME AND ITS COMPLEX WITH A DISACCHARIDE | 3.2.1.17 |
| 1LZ4 | ENTHALPIC DESTABILIZATION OF A MUTANT HUMAN LYSOZYME LACKING A DISULFIDE BRIDGE BETWEEN CYSTEINE-77 AND CYSTEINE-95 | 3.2.1.17 |
| 1LZ5 | STRUCTURAL AND FUNCTIONAL ANALYSES OF THE ARG-GLY-ASP SEQUENCE INTRODUCED INTO HUMAN LYSOZYME | 3.2.1.17 |
| 1LZ6 | STRUCTURAL AND FUNCTIONAL ANALYSES OF THE ARG-GLY-ASP SEQUENCE INTRODUCED INTO HUMAN LYSOZYME | 3.2.1.17 |
| 1LZ8 | LYSOZYME PHASED ON ANOMALOUS SIGNAL OF SULFURS AND CHLORINES | 3.2.1.17 |
| 1LZ9 | ANOMALOUS SIGNAL OF SOLVENT BROMINES USED FOR PHASING OF LYSOZYME | 3.2.1.17 |
| 1LZA | DISSECTION OF PROTEIN-CARBOHYDRATE INTERACTIONS IN MUTANT HEN EGG-WHITE LYSOZYME COMPLEXES AND THEIR HYDROLYTIC ACTIVITY | 3.2.1.17 |
| 1LZB | DISSECTION OF PROTEIN-CARBOHYDRATE INTERACTIONS IN MUTANT HEN EGG-WHITE LYSOZYME COMPLEXES AND THEIR HYDROLYTIC ACTIVITY | 3.2.1.17 |
| 1LZC | DISSECTION OF PROTEIN-CARBOHYDRATE INTERACTIONS IN MUTANT HEN EGG-WHITE LYSOZYME COMPLEXES AND THEIR HYDROLYTIC ACTIVITY | 3.2.1.17 |
| 1LZD | DISSECTION OF PROTEIN-CARBOHYDRATE INTERACTIONS IN MUTANT HEN EGG-WHITE LYSOZYME COMPLEXES AND THEIR HYDROLYTIC ACTIVITY | 3.2.1.17 |
| 1LZE | DISSECTION OF PROTEIN-CARBOHYDRATE INTERACTIONS IN MUTANT HEN EGG-WHITE LYSOZYME COMPLEXES AND THEIR HYDROLYTIC ACTIVITY | 3.2.1.17 |
| 1LZG | DISSECTION OF PROTEIN-CARBOHYDRATE INTERACTIONS IN MUTANT HEN EGG-WHITE LYSOZYME COMPLEXES AND THEIR HYDROLYTIC ACTIVITY | 3.2.1.17 |
| 1LZN | NEUTRON STRUCTURE OF HEN EGG-WHITE LYSOZYME | 3.2.1.17 |
| 1LZQ | CRYSTAL STRUCTURE OF THE COMPLEX OF MUTANT HIV-1 PROTEASE (A71V, V82T, I84V) WITH AN ETHYLENAMINE PEPTIDOMIMETIC INHIBITOR BOC-PHE-PSI[CH2CH2NH]-PHE-GLU-PHE-NH2 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1LZR | STRUCTURAL CHANGES OF THE ACTIVE SITE CLEFT AND DIFFERENT SACCHARIDE BINDING MODES IN HUMAN LYSOZYME CO-CRYSTALLIZED WITH HEXA-N-ACETYL-CHITOHEXAOSE AT PH 4.0 | 3.2.1.17 |
| 1LZS | STRUCTURAL CHANGES OF THE ACTIVE SITE CLEFT AND DIFFERENT SACCHARIDE BINDING MODES IN HUMAN LYSOZYME CO-CRYSTALLIZED WITH HEXA-N-ACETYL-CHITOHEXAOSE AT PH 4.0 | 3.2.1.17 |
| 1LZT | REFINEMENT OF TRICLINIC LYSOZYME | 3.2.1.17 |
| 1LZY | X-RAY STRUCTURE OF TURKEY EGG LYSOZYME COMPLEX WITH DI-N-ACETYLCHITOBIOSE. RECOGNITION AND BINDING OF ALPHA-ANOMERIC FORM | 3.2.1.17 |
| 1M01 | WILDTYPE STREPTOMYCES PLICATUS BETA-HEXOSAMINIDASE IN COMPLEX WITH PRODUCT (GLCNAC) | 3.2.1.52 |
| 1M03 | MUTANT STREPTOMYCES PLICATUS BETA-HEXOSAMINIDASE (D313A) IN COMPLEX WITH PRODUCT (GLCNAC) | 3.2.1.52 |
| 1M04 | MUTANT STREPTOMYCES PLICATUS BETA-HEXOSAMINIDASE (D313N) IN COMPLEX WITH PRODUCT (GLCNAC) | 3.2.1.52 |
| 1M07 | RESIDUES INVOLVED IN THE CATALYSIS AND BASE SPECIFICITY OF CYTOTOXIC RIBONUCLEASE FROM BULLFROG (RANA CATESBEIANA) | 3.1.27.5 3.1.27 |
| 1M08 | CRYSTAL STRUCTURE OF THE UNBOUND NUCLEASE DOMAIN OF COLE7 | 3.1 |
| 1M0B | HIV-1 PROTEASE IN COMPLEX WITH AN ETHYLENEAMINE INHIBITOR | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1M0D | CRYSTAL STRUCTURE OF BACTERIOPHAGE T7 ENDONUCLEASE I WITH A WILD-TYPE ACTIVE SITE AND BOUND MANGANESE IONS | 3.1.21.2 |
| 1M0I | CRYSTAL STRUCTURE OF BACTERIOPHAGE T7 ENDONUCLEASE I WITH A WILD-TYPE ACTIVE SITE | 3.1.21.2 |
| 1M0V | NMR STRUCTURE OF THE TYPE III SECRETORY DOMAIN OF YERSINIA YOPH COMPLEXED WITH THE SKAP-HOM PHOSPHO-PEPTIDE N-ACETYL-DEPYDDPF-NH2 | 3.1.3.48 |
| 1M11 | STRUCTURAL MODEL OF HUMAN DECAY-ACCELERATING FACTOR BOUND TO ECHOVIRUS 7 FROM CRYO-ELECTRON MICROSCOPY | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1M1F | KID TOXIN PROTEIN FROM E.COLI PLASMID R1 | 3.1 |
| 1M21 | CRYSTAL STRUCTURE ANALYSIS OF THE PEPTIDE AMIDASE PAM IN COMPLEX WITH THE COMPETITIVE INHIBITOR CHYMOSTATIN | 3.5.1 |
| 1M22 | X-RAY STRUCTURE OF NATIVE PEPTIDE AMIDASE FROM STENOTROPHOMONAS MALTOPHILIA AT 1.4 A | 3.5.1 |
| 1M2T | MISTLETOE LECTIN I FROM VISCUM ALBUM IN COMPLEX WITH ADENINE MONOPHOSPHATE. CRYSTAL STRUCTURE AT 1.9 A RESOLUTION | 3.2.2.22 |
| 1M2X | CRYSTAL STRUCTURE OF THE METALLO-BETA-LACTAMASE BLAB OF CHRYSEOBACTERIUM MENINGOSEPTICUM IN COMPLEX WITH THE INHIBITOR D-CAPTOPRIL | 3.5.2.6 |
| 1M33 | CRYSTAL STRUCTURE OF BIOH AT 1.7 A | 3.1.1.85 |
| 1M35 | AMINOPEPTIDASE P FROM ESCHERICHIA COLI | 3.4.11.9 |
| 1M38 | STRUCTURE OF INORGANIC PYROPHOSPHATASE | 3.6.1.1 |
| 1M3G | SOLUTION STRUCTURE OF THE CATALYTIC DOMAIN OF MAPK PHOSPHATASE PAC-1: INSIGHTS INTO SUBSTRATE-INDUCED ENZYMATIC ACTIVATION | 3.1.3.48 3.1.3.16 |
| 1M3H | CRYSTAL STRUCTURE OF HOGG1 D268E MUTANT WITH PRODUCT OLIGONUCLEOTIDE | 3.2.2 4.2.99.18 |
| 1M3Q | CRYSTAL STRUCTURE OF HOGG1 D268E MUTANT WITH BASE-EXCISED DNA AND 8-AMINOGUANINE | 3.2.2 4.2.99.18 |
| 1M40 | ULTRA HIGH RESOLUTION CRYSTAL STRUCTURE OF TEM-1 | 3.5.2.6 |
| 1M43 | CRYSTAL STRUCTURE OF PMII IN COMPLEX WITH PEPSTATIN A TO 2.4 A | 3.4.23.39 |
| 1M4H | CRYSTAL STRUCTURE OF BETA-SECRETASE COMPLEXED WITH INHIBITOR OM00-3 | 3.4.23 3.4.23.46 |
| 1M4L | STRUCTURE OF NATIVE CARBOXYPEPTIDASE A AT 1.25 RESOLUTION | 3.4.17.1 |
| 1M4W | THERMOPHILIC B-1,4-XYLANASE FROM NONOMURAEA FLEXUOSA | 3.2.1.8 |
| 1M4Y | CRYSTAL STRUCTURE OF HSLV FROM THERMOTOGA MARITIMA | 3.4.25 3.4.25.2 |
| 1M63 | CRYSTAL STRUCTURE OF CALCINEURIN-CYCLOPHILIN-CYCLOSPORIN SHOWS COMMON BUT DISTINCT RECOGNITION OF IMMUNOPHILIN-DRUG COMPLEXES | 3.1.3.16 |
| 1M65 | YCDX PROTEIN | 3.1.3 |
| 1M68 | YCDX PROTEIN, TRINUCLEAR ZINC SITE | 3.1.3 |
| 1M6D | CRYSTAL STRUCTURE OF HUMAN CATHEPSIN F | 3.4.22.41 |
| 1M6K | STRUCTURE OF THE OXA-1 CLASS D BETA-LACTAMASE | 3.5.2.6 |
| 1M72 | CRYSTAL STRUCTURE OF CASPASE-1 FROM SPODOPTERA FRUGIPERDA | 3.4.22.36 3.4.22 |
| 1M7J | CRYSTAL STRUCTURE OF D-AMINOACYLASE DEFINES A NOVEL SUBSET OF AMIDOHYDROLASES | 3.5.1.81 |
| 1M7R | CRYSTAL STRUCTURE OF MYOTUBULARIN-RELATED PROTEIN-2 (MTMR2) COMPLEXED WITH PHOSPHATE | 3.1.3.64 3.1.3.95 |
| 1M8R | CRYSTAL STRUCTURES OF CADMIUM-BINDING ACIDIC PHOSPHOLIPASE A2 FROM THE VENOM OF AGKISTRODON HALYS PALLAS AT 1.9 RESOLUTION (CRYSTAL GROWN AT PH 7.4) | 3.1.1.4 |
| 1M8S | CRYSTAL STRUCTURES OF CADMIUM-BINDING ACIDIC PHOSPHOLIPASE A2 FROM THE VENOM OF AGKISTRODON HALYS PALLAS AT 1.9 RESOLUTION (CRYSTAL GROWN AT PH 5.9) | 3.1.1.4 |
| 1M8T | STRUCTURE OF AN ACIDIC PHOSPHOLIPASE A2 FROM THE VENOM OF OPHIOPHAGUS HANNAH AT 2.1 RESOLUTION FROM A HEMIHEDRALLY TWINNED CRYSTAL FORM | 3.1.1.4 |
| 1M9N | CRYSTAL STRUCTURE OF THE HOMODIMERIC BIFUNCTIONAL TRANSFORMYLASE AND CYCLOHYDROLASE ENZYME AVIAN ATIC IN COMPLEX WITH AICAR AND XMP AT 1.93 ANGSTROMS. | 2.1.2.3 3.5.4.10 |
| 1M9U | CRYSTAL STRUCTURE OF EARTHWORM FIBRINOLYTIC ENZYME COMPONENT A FROM EISENIA FETIDA | 3.4.21 |
| 1MAA | MOUSE ACETYLCHOLINESTERASE CATALYTIC DOMAIN, GLYCOSYLATED PROTEIN | 3.1.1.7 |
| 1MAC | CRYSTAL STRUCTURE AND SITE-DIRECTED MUTAGENESIS OF BACILLUS MACERANS ENDO-1,3-1,4-BETA-GLUCANASE | 3.2.1.73 |
| 1MAH | FASCICULIN2-MOUSE ACETYLCHOLINESTERASE COMPLEX | 3.1.1.7 |
| 1MAI | STRUCTURE OF THE PLECKSTRIN HOMOLOGY DOMAIN FROM PHOSPHOLIPASE C DELTA IN COMPLEX WITH INOSITOL TRISPHOSPHATE | 3.1.4.11 |
| 1MAS | PURINE NUCLEOSIDE HYDROLASE | 3.2.2.1 3.2.2.2 3.2.2.3 |
| 1MAT | STRUCTURE OF THE COBALT-DEPENDENT METHIONINE AMINOPEPTIDASE FROM ESCHERICHIA COLI: A NEW TYPE OF PROTEOLYTIC ENZYME | 3.4.11.18 |
| 1MAX | BETA-TRYPSIN PHOSPHONATE INHIBITED | 3.4.21.4 |
| 1MAY | BETA-TRYPSIN PHOSPHONATE INHIBITED | 3.4.21.4 |
| 1MBL | A CATALYTICALLY-IMPAIRED CLASS A BETA-LACTAMASE: 2 ANGSTROMS CRYSTAL STRUCTURE AND KINETICS OF THE BACILLUS LICHENIFORMIS E166A MUTANT | 3.5.2.6 |
| 1MBM | NSP4 PROTEINASE FROM EQUINE ARTERITIS VIRUS | 3.4.21 3.4.22 3.4.19.12 2.7.7.48 3.6.4.12 3.6.4.13 |
| 1MBQ | ANIONIC TRYPSIN FROM PACIFIC CHUM SALMON | 3.4.21.4 |
| 1MC0 | REGULATORY SEGMENT OF MOUSE 3',5'-CYCLIC NUCLEOTIDE PHOSPHODIESTERASE 2A, CONTAINING THE GAF A AND GAF B DOMAINS | 3.1.4.35 3.1.4.17 |
| 1MC8 | CRYSTAL STRUCTURE OF FLAP ENDONUCLEASE-1 R42E MUTANT FROM PYROCOCCUS HORIKOSHII | 3.1 |
| 1MC9 | STREPROMYCES LIVIDANS XYLAN BINDING DOMAIN CBM13 IN COMPLEX WITH XYLOPENTAOSE | 3.2.1.8 |
| 1MCT | THE REFINED 1.6 ANGSTROMS RESOLUTION CRYSTAL STRUCTURE OF THE COMPLEX FORMED BETWEEN PORCINE BETA-TRYPSIN AND MCTI-A, A TRYPSIN INHIBITOR OF SQUASH FAMILY | 3.4.21.4 |
| 1MCV | CRYSTAL STRUCTURE ANALYSIS OF A HYBRID SQUASH INHIBITOR IN COMPLEX WITH PORCINE PANCREATIC ELASTASE | 3.4.21.36 |
| 1MD7 | MONOMERIC STRUCTURE OF THE ZYMOGEN OF COMPLEMENT PROTEASE C1R | 3.4.21.41 |
| 1MD8 | MONOMERIC STRUCTURE OF THE ACTIVE CATALYTIC DOMAIN OF COMPLEMENT PROTEASE C1R | 3.4.21.41 |
| 1MDW | CRYSTAL STRUCTURE OF CALCIUM-BOUND PROTEASE CORE OF CALPAIN II REVEALS THE BASIS FOR INTRINSIC INACTIVATION | 3.4.22.17 3.4.22.53 |
| 1ME3 | HIGH RESOLUTION CRYSTAL STRUCTURE ANALYSIS OF CRUZAIN NON-COVALENTLY BOUND TO A HYDROXYMETHYL KETONE INHIBITOR (II) | 3.4.22 3.4.22.51 |
| 1ME4 | HIGH RESOLUTION CRYSTAL STRUCTURE ANALYSIS OF CRUZAIN NON-COVALENTLY BOUND TO A HYDROXYMETHYL KETONE INHIBITOR (I) | 3.4.22 3.4.22.51 |
| 1ME6 | CRYSTAL STRUCTURE OF PLASMEPSIN II, AN ASPARTYL PROTEASE FROM PLASMODIUM FALCIPARUM, IN COMPLEX WITH A STATINE-BASED INHIBITOR | 3.4.23.39 |
| 1MEC | CONFORMATIONAL VARIABILITY OF A PICORNAVIRUS CAPSID: PH-DEPENDENT STRUCTURAL CHANGES OF MENGO VIRUS RELATED TO ITS HOST RECEPTOR ATTACHMENT SITE AND DISASSEMBLY | 3.6.4.13 3.4.22.28 2.7.7.48 |
| 1MEE | THE COMPLEX BETWEEN THE SUBTILISIN FROM A MESOPHILIC BACTERIUM AND THE LEECH INHIBITOR EGLIN-C | 3.4.21.14 3.4.21.62 |
| 1MEG | CRYSTAL STRUCTURE OF A CARICAIN D158E MUTANT IN COMPLEX WITH E-64 | 3.4.22.30 |
| 1MEM | CRYSTAL STRUCTURE OF CATHEPSIN K COMPLEXED WITH A POTENT VINYL SULFONE INHIBITOR | 3.4.22.38 |
| 1MER | HIV-1 MUTANT (I84V) PROTEASE COMPLEXED WITH DMP450 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1MES | HIV-1 MUTANT (I84V) PROTEASE COMPLEXED WITH DMP323 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1MET | HIV-1 MUTANT (V82F) PROTEASE COMPLEXED WITH DMP323 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1MEU | HIV-1 MUTANT (V82F, I84V) PROTEASE COMPLEXED WITH DMP323 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1MF4 | STRUCTURE-BASED DESIGN OF POTENT AND SELECTIVE INHIBITORS OF PHOSPHOLIPASE A2: CRYSTAL STRUCTURE OF THE COMPLEX FORMED BETWEEN PHOSHOLIPASE A2 FROM NAJA NAJA SAGITTIFERA AND A DESIGNED PEPTIDE INHIBITOR AT 1.9 A RESOLUTION | 3.1.1.4 |
| 1MF8 | CRYSTAL STRUCTURE OF HUMAN CALCINEURIN COMPLEXED WITH CYCLOSPORIN A AND HUMAN CYCLOPHILIN | 3.1.3.16 |
| 1MFS | DYNAMICAL BEHAVIOR OF THE HIV-1 NUCLEOCAPSID PROTEIN; NMR, 30 STRUCTURES | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1MFU | PROBING THE ROLE OF A MOBILE LOOP IN HUMAN SALIVARY AMYLASE: STRUCTURAL STUDIES ON THE LOOP-DELETED MUTANT | 3.2.1.1 |
| 1MFV | PROBING THE ROLE OF A MOBILE LOOP IN HUMAN SLAIVARY AMYLASE: STRUCTURAL STUDIES ON THE LOOP-DELETED ENZYME | 3.2.1.1 |
| 1MG6 | THE CRYSTAL STRUCTURE OF A K49 PLA2 FROM THE SNAKE VENOM OF AGKISTRODON ACUTUS | 3.1.1.4 |
| 1MGR | CRYSTAL STRUCTURE OF RNASE SA3,CYTOTOXIC MICROBIAL RIBONUCLEASE | 3.1.27.3 4.6.1.24 |
| 1MGW | CRYSTAL STRUCTURE OF RNASE SA3, CYTOTOXIC MICROBIAL RIBONUCLEASE | 3.1.27.3 4.6.1.24 |
| 1MH0 | CRYSTAL STRUCTURE OF THE ANTICOAGULANT SLOW FORM OF THROMBIN | 3.4.21.5 |
| 1MH1 | SMALL G-PROTEIN | 3.6.5.2 |
| 1MH2 | CRYSTAL STRUCTURE OF A ZINC CONTAINING DIMER OF PHOSPHOLIPASE A2 FROM THE VENOM OF INDIAN COBRA (NAJA NAJA SAGITTIFERA) | 3.1.1.4 |
| 1MH7 | CRYSTAL STRUCTURE OF A CALCIUM-FREE ISOFORM OF PHOSPHOLIPASE A2 FROM NAJA NAJA SAGITTIFERA AT 2.0 A RESOLUTION | 3.1.1.4 |
| 1MH8 | CRYSTAL STRUCTURE OF A PHOPHOLIPASE A2 MONOMER WITH ISOLEUCINE AT SECOND POSITION | 3.1.1.4 |
| 1MH9 | CRYSTAL STRUCTURE ANALYSIS OF DEOXYRIBONUCLEOTIDASE | 3.1.3.5 3.1.3 |
| 1MHS | MODEL OF NEUROSPORA CRASSA PROTON ATPASE | 3.6.3.6 7.1.2.1 |
| 1MHW | DESIGN OF NON-COVALENT INHIBITORS OF HUMAN CATHEPSIN L. FROM THE 96-RESIDUE PROREGION TO OPTIMIZED TRIPEPTIDES | 3.4.22.15 |
| 1MI8 | 2.0 ANGSTROM CRYSTAL STRUCTURE OF A DNAB INTEIN FROM SYNECHOCYSTIS SP. PCC 6803 | 3.6.1 3.6.4.12 |
| 1MII | SOLUTION STRUCTURE OF ALPHA-CONOTOXIN MII | 3.2.1.17 |
| 1MIR | RAT PROCATHEPSIN B | 3.4.22.1 |
| 1MJ5 | LINB (HALOALKANE DEHALOGENASE) FROM SPHINGOMONAS PAUCIMOBILIS UT26 AT ATOMIC RESOLUTION | 3.8.1.5 |
| 1MJW | STRUCTURE OF INORGANIC PYROPHOSPHATASE MUTANT D42N | 3.6.1.1 |
| 1MJX | STRUCTURE OF INORGANIC PYROPHOSPHATASE MUTANT D65N | 3.6.1.1 |
| 1MJY | STRUCTURE OF INORGANIC PYROPHOSPHATASE MUTANT D70N | 3.6.1.1 |
| 1MJZ | STRUCTURE OF INORGANIC PYROPHOSPHATASE MUTANT D97N | 3.6.1.1 |
| 1MK0 | CATALYTIC DOMAIN OF INTRON ENDONUCLEASE I-TEVI, E75A MUTANT | 3.1 |
| 1MK1 | STRUCTURE OF THE MT-ADPRASE IN COMPLEX WITH ADPR, A NUDIX ENZYME | 3.6.1.13 |
| 1MKI | CRYSTAL STRUCTURE OF BACILLUS SUBTILIS PROBABLE GLUTAMINASE, APC1040 | 3.5.1.2 |
| 1MKP | CRYSTAL STRUCTURE OF PYST1 (MKP3) | 3.1.3.48 3.1.3.16 |
| 1MKS | CARBOXYLIC ESTER HYDROLASE, TRIGONAL FORM OF THE TRIPLE MUTANT | 3.1.1.4 |
| 1MKT | CARBOXYLIC ESTER HYDROLASE, 1.72 ANGSTROM TRIGONAL FORM OF THE BOVINE RECOMBINANT PLA2 ENZYME | 3.1.1.4 |
| 1MKU | CARBOXYLIC ESTER HYDROLASE, ORTHORHOMBIC FORM OF THE TRIPLE MUTANT | 3.1.1.4 |
| 1MKV | CARBOXYLIC ESTER HYDROLASE COMPLEX (PLA2 + TRANSITION STATE ANALOG COMPLEX) | 3.1.1.4 |
| 1MKW | THE CO-CRYSTAL STRUCTURE OF UNLIGANDED BOVINE ALPHA-THROMBIN AND PRETHROMBIN-2: MOVEMENT OF THE YPPW SEGMENT AND ACTIVE SITE RESIDUES UPON LIGAND BINDING | 3.4.21.5 |
| 1MKX | THE CO-CRYSTAL STRUCTURE OF UNLIGANDED BOVINE ALPHA-THROMBIN AND PRETHROMBIN-2: MOVEMENT OF THE YPPW SEGMENT AND ACTIVE SITE RESIDUES UPON LIGAND BINDING | 3.4.21.5 |
| 1MM2 | SOLUTION STRUCTURE OF THE 2ND PHD DOMAIN FROM MI2B | 3.6.4.12 |
| 1MM3 | SOLUTION STRUCTURE OF THE 2ND PHD DOMAIN FROM MI2B WITH C-TERMINAL LOOP REPLACED BY CORRESPONDING LOOP FROM WSTF | 3.6.4.12 |
| 1MM8 | CRYSTAL STRUCTURE OF TN5 TRANSPOSASE COMPLEXED WITH ME DNA | 3.1 |
| 1MMB | COMPLEX OF BB94 WITH THE CATALYTIC DOMAIN OF MATRIX METALLOPROTEINASE-8 | 3.4.24.34 |
| 1MMJ | PORCINE PANCREATIC ELASTASE COMPLEXED WITH A POTENT PEPTIDYL INHIBITOR, FR136706 | 3.4.21.36 |
| 1MML | MECHANISTIC IMPLICATIONS FROM THE STRUCTURE OF A CATALYTIC FRAGMENT OF MMLV REVERSE TRANSCRIPTASE | 3.4.23 2.7.7.49 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1MMP | MATRILYSIN COMPLEXED WITH CARBOXYLATE INHIBITOR | 3.4.24.23 |
| 1MMQ | MATRILYSIN COMPLEXED WITH HYDROXAMATE INHIBITOR | 3.4.24.23 |
| 1MMR | MATRILYSIN COMPLEXED WITH SULFODIIMINE INHIBITOR | 3.4.24.23 |
| 1MNC | STRUCTURE OF HUMAN NEUTROPHIL COLLAGENASE REVEALS LARGE S1' SPECIFICITY POCKET | 3.4.24.7 3.4.24.34 |
| 1MO3 | RECA-ADP COMPLEX | 3.4.99.37 3.1 |
| 1MO4 | RECA-ATP-GAMMA-S COMPLEX | 3.4.99.37 3.1 |
| 1MO5 | RECA-ATP-GAMMA-S-MG COMPLEX | 3.4.99.37 3.1 |
| 1MO6 | RECA-DATP-MG COMPLEX | 3.4.99.37 3.1 |
| 1MO7 | ATPASE | 3.6.3.9 7.2.2.13 |
| 1MO8 | ATPASE | 3.6.3.9 7.2.2.13 |
| 1MOM | CRYSTAL STRUCTURE OF MOMORDIN, A TYPE I RIBOSOME INACTIVATING PROTEIN FROM THE SEEDS OF MOMORDICA CHARANTIA | 3.2.2.22 |
| 1MOW | E-DREI | 3.1 |
| 1MP2 | STRUCTURE OF MT-ADPRASE (APOENZYME), A NUDIX HYDROLASE FROM MYCOBACTERIUM TUBERCULOSIS | 3.6.1.13 |
| 1MPG | 3-METHYLADENINE DNA GLYCOSYLASE II FROM ESCHERICHIA COLI | 3.2.2.21 |
| 1MPL | CRYSTAL STRUCTURE OF PHOSPHONATE-INHIBITED D-ALA-D-ALA PEPTIDASE REVEALS AN ANALOG OF A TETRAHEDRAL TRANSITION STATE | 3.4.16.4 |
| 1MPP | X-RAY ANALYSES OF ASPARTIC PROTEINASES. V. STRUCTURE AND REFINEMENT AT 2.0 ANGSTROMS RESOLUTION OF THE ASPARTIC PROTEINASE FROM MUCOR PUSILLUS | 3.4.23.23 |
| 1MPT | CRYSTAL STRUCTURE OF A NEW ALKALINE SERINE PROTEASE (M-PROTEASE) FROM BACILLUS SP. KSM-K16 | 3.4.21.62 3.4.21 |
| 1MPX | ALPHA-AMINO ACID ESTER HYDROLASE LABELED WITH SELENOMETHIONINE | 3.1.1.43 |
| 1MQ0 | CRYSTAL STRUCTURE OF HUMAN CYTIDINE DEAMINASE | 3.5.4.5 |
| 1MQ5 | CRYSTAL STRUCTURE OF 3-CHLORO-N-[4-CHLORO-2-[[(4-CHLOROPHENYL)AMINO]CARBONYL]PHENYL]-4-[(4-METHYL-1-PIPERAZINYL)METHYL]-2-THIOPHENECARBOXAMIDE COMPLEXED WITH HUMAN FACTOR XA | 3.4.21.6 |
| 1MQ6 | CRYSTAL STRUCTURE OF 3-CHLORO-N-[4-CHLORO-2-[[(5-CHLORO-2-PYRIDINYL)AMINO]CARBONYL]-6-METHOXYPHENYL]-4-[[(4,5-DIHYDRO-2-OXAZOLYL)METHYLAMINO]METHYL]-2-THIOPHENECARBOXAMIDE COMPLEXED WITH HUMAN FACTOR XA | 3.4.21.6 |
| 1MQ7 | CRYSTAL STRUCTURE OF DUTPASE FROM MYCOBACTERIUM TUBERCULOSIS (RV2697C) | 3.6.1.23 |
| 1MQE | STRUCTURE OF THE MT-ADPRASE IN COMPLEX WITH GADOLIDIUM AND ADP-RIBOSE, A NUDIX ENZYME | 3.6.1.13 |
| 1MQO | METALLO-BETA-LACTAMASE BCII CD SUBSTITUTED FROM BACILLUS CEREUS AT 1.35 ANGSTROMS RESOLUTION | 3.5.2.6 |
| 1MQP | THE CRYSTAL STRUCTURE OF ALPHA-D-GLUCURONIDASE FROM BACILLUS STEAROTHERMOPHILUS T-6 | 3.2.1.139 3.2.1.131 |
| 1MQQ | THE CRYSTAL STRUCTURE OF ALPHA-D-GLUCURONIDASE FROM BACILLUS STEAROTHERMOPHILUS T-1 COMPLEXED WITH GLUCURONIC ACID | 3.2.1.139 3.2.1.131 |
| 1MQR | THE CRYSTAL STRUCTURE OF ALPHA-D-GLUCURONIDASE (E386Q) FROM BACILLUS STEAROTHERMOPHILUS T-6 | 3.2.1.139 3.2.1.131 |
| 1MQW | STRUCTURE OF THE MT-ADPRASE IN COMPLEX WITH THREE MN2+ IONS AND AMPCPR, A NUDIX ENZYME | 3.6.1.13 |
| 1MR2 | STRUCTURE OF THE MT-ADPRASE IN COMPLEX WITH 1 MN2+ ION AND AMP-CP (A INHIBITOR), A NUDIX ENZYME | 3.6.1.13 |
| 1MR5 | ORTHORHOMBIC FORM OF TRYPANOSOMA CRUZI TRANS-SIALIDASE | 3.2.1.18 |
| 1MRG | STUDIES ON CRYSTAL STRUCTURES ACTIVE CENTER GEOMETRY AND DEPURINE MECHANISM OF TWO RIBOSOME-INACTIVATING PROTEINS | 3.2.2.22 |
| 1MRH | STUDIES ON CRYSTAL STRUCTURES ACTIVE CENTER GEOMETRY AND DEPURINE MECHANISM OF TWO RIBOSOME-INACTIVATING PROTEINS | 3.2.2.22 |
| 1MRI | STUDIES ON CRYSTAL STRUCTURES ACTIVE CENTER GEOMETRY AND DEPURINE MECHANISM OF TWO RIBOSOME-INACTIVATING PROTEINS | 3.2.2.22 |
| 1MRJ | STUDIES ON CRYSTAL STRUCTURES ACTIVE CENTER GEOMETRY AND DEPURINE MECHANISM OF TWO RIBOSOME-INACTIVATING PROTEINS | 3.2.2.22 |
| 1MRK | STUDIES ON CRYSTAL STRUCTURES ACTIVE CENTER GEOMETRY AND DEPURINE MECHANISM OF TWO RIBOSOME-INACTIVATING PROTEINS | 3.2.2.22 |
| 1MRW | STRUCTURE OF HIV PROTEASE (MUTANT Q7K L33I L63I) COMPLEXED WITH KNI-577 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1MRX | STRUCTURE OF HIV PROTEASE (MUTANT Q7K L33I L63I V82F I84V ) COMPLEXED WITH KNI-577 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1MS0 | MONOCLINIC FORM OF TRYPANOSOMA CRUZI TRANS-SIALIDASE, IN COMPLEX WITH 3-DEOXY-2,3-DEHYDRO-N-ACETYLNEURAMINIC ACID (DANA)AND LACTOSE | 3.2.1.18 |
| 1MS1 | MONOCLINIC FORM OF TRYPANOSOMA CRUZI TRANS-SIALIDASE, IN COMPLEX WITH 3-DEOXY-2,3-DEHYDRO-N-ACETYLNEURAMINIC ACID (DANA) | 3.2.1.18 |
| 1MS3 | MONOCLINIC FORM OF TRYPANOSOMA CRUZI TRANS-SIALIDASE | 3.2.1.18 |
| 1MS4 | TRICLINIC FORM OF TRYPANOSOMA CRUZI TRANS-SIALIDASE | 3.2.1.18 |
| 1MS5 | TRICLINIC FORM OF TRYPANOSOMA CRUZI TRANS-SIALIDASE, SOAKED WITH N-ACETYLNEURAMINYL-A-2,3-THIO-GALACTOSIDE (NA-S-GAL) | 3.2.1.18 |
| 1MS6 | DIPEPTIDE NITRILE INHIBITOR BOUND TO CATHEPSIN S. | 3.4.22.27 |
| 1MS8 | TRICLINIC FORM OF TRYPANOSOMA CRUZI TRANS-SIALIDASE, IN COMPLEX WITH 3-DEOXY-2,3-DEHYDRO-N-ACETYLNEURAMINIC ACID (DANA) | 3.2.1.18 |
| 1MS9 | TRICLINIC FORM OF TRYPANOSOMA CRUZI TRANS-SIALIDASE, IN COMPLEX WITH LACTOSE | 3.2.1.18 |
| 1MSM | THE HIV PROTEASE (MUTANT Q7K L33I L63I) COMPLEXED WITH KNI-764 (AN INHIBITOR) | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1MSN | THE HIV PROTEASE (MUTANT Q7K L33I L63I V82F I84V) COMPLEXED WITH KNI-764 (AN INHIBITOR) | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1MSZ | SOLUTION STRUCTURE OF THE R3H DOMAIN FROM HUMAN SMUBP-2 | 3.6.4.12 3.6.4.13 |
| 1MT3 | CRYSTAL STRUCTURE OF THE TRICORN INTERACTING FACTOR SELENOMETHIONINE-F1 | 3.4.11.5 |
| 1MT7 | VIABILITY OF A DRUG-RESISTANT HIV-1 PROTEASE MUTANT: STRUCTURAL INSIGHTS FOR BETTER ANTIVIRAL THERAPY | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1MT8 | VIABILITY OF A DRUG-RESISTANT HIV-1 PROTEASE MUTANT: STRUCTURAL INSIGHTS FOR BETTER ANTIVIRAL THERAPY | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1MT9 | VIABILITY OF A DRUG-RESISTANT HIV-1 PROTEASE MUTANT: STRUCTURAL INSIGHTS FOR BETTER ANTIVIRAL THERAPY | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1MTB | VIABILITY OF A DRUG-RESISTANT HIV-1 PROTEASE MUTANT: STRUCTURAL INSIGHTS FOR BETTER ANTIVIRAL THERAPY | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1MTL | NON-PRODUCTIVE MUG-DNA COMPLEX | 3.2.2 3.2.2.28 |
| 1MTN | BOVINE ALPHA-CHYMOTRYPSIN:BPTI CRYSTALLIZATION | 3.4.21.1 |
| 1MTR | HIV-1 PROTEASE COMPLEXED WITH A CYCLIC PHE-ILE-VAL PEPTIDOMIMETIC INHIBITOR | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1MTS | FACTOR XA SPECIFIC INHIBITOR IN COMPLEX WITH BOVINE TRYPSIN | 3.4.21.4 |
| 1MTU | FACTOR XA SPECIFIC INHIBITOR IN COMPLEX WITH BOVINE TRYPSIN | 3.4.21.4 |
| 1MTV | FACTOR XA SPECIFIC INHIBITOR IN COMPLEX WITH BOVINE TRYPSIN | 3.4.21.4 |
| 1MTW | FACTOR XA SPECIFIC INHIBITOR IN COMPLEX WITH BOVINE TRYPSIN | 3.4.21.4 |
| 1MTZ | CRYSTAL STRUCTURE OF THE TRICORN INTERACTING FACTOR F1 | 3.4.11.5 |
| 1MU0 | CRYSTAL STRUCTURE OF THE TRICORN INTERACTING FACTOR F1 COMPLEX WITH PCK | 3.4.11.5 |
| 1MU2 | CRYSTAL STRUCTURE OF HIV-2 REVERSE TRANSCRIPTASE | 2.7.7.49 3.4.23.47 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1MU6 | CRYSTAL STRUCTURE OF THROMBIN IN COMPLEX WITH L-378,622 | 3.4.21.5 |
| 1MU7 | CRYSTAL STRUCTURE OF A HUMAN TYROSYL-DNA PHOSPHODIESTERASE (TDP1)-TUNGSTATE COMPLEX | 3.1.4 |
| 1MU8 | THROMBIN-HIRUGEN_L-378,650 | 3.4.21.5 |
| 1MU9 | CRYSTAL STRUCTURE OF A HUMAN TYROSYL-DNA PHOSPHODIESTERASE (TDP1)-VANADATE COMPLEX | 3.1.4 |
| 1MUD | CATALYTIC DOMAIN OF MUTY FROM ESCHERICHIA COLI, D138N MUTANT COMPLEXED TO ADENINE | 3.2.2.31 |
| 1MUE | THROMBIN-HIRUGEN-L405,426 | 3.4.21.5 |
| 1MUG | G:T/U MISMATCH-SPECIFIC DNA GLYCOSYLASE FROM E.COLI | 3.2.2 3.2.2.28 |
| 1MUH | CRYSTAL STRUCTURE OF TN5 TRANSPOSASE COMPLEXED WITH TRANSPOSON END DNA | 3.1 |
| 1MUI | CRYSTAL STRUCTURE OF HIV-1 PROTEASE COMPLEXED WITH LOPINAVIR. | 3.4.23.16 |
| 1MUN | CATALYTIC DOMAIN OF MUTY FROM ESCHERICHIA COLI D138N MUTANT | 3.2.2 3.2.2.31 |
| 1MUS | CRYSTAL STRUCTURE OF TN5 TRANSPOSASE COMPLEXED WITH RESOLVED OUTSIDE END DNA | 3.1 |
| 1MUT | NMR STUDY OF MUTT ENZYME, A NUCLEOSIDE TRIPHOSPHATE PYROPHOSPHOHYDROLASE | 3.6.1 3.6.1.55 |
| 1MUY | CATALYTIC DOMAIN OF MUTY FROM ESCHERICHIA COLI | 3.2.2 3.2.2.31 |
| 1MVE | CRYSTAL STRUCTURE OF A NATURAL CIRCULARLY-PERMUTATED JELLYROLL PROTEIN: 1,3-1,4-BETA-D-GLUCANASE FROM FIBROBACTER SUCCINOGENES | 3.2.1.73 |
| 1MVP | STRUCTURAL STUDIES OF THE RETROVIRAL PROTEINASE FROM AVIAN MYELOBLASTOSIS ASSOCIATED VIRUS | 3.4.23 |
| 1MWE | THE X-RAY STRUCTURE OF A COMPLEX OF TERN N9 INFLUENZA VIRUS NEURAMINIDASE COMPLEXED WITH SIALIC ACID AT 4 DEGREES C REVEALING A SECOND SIALIC ACID BINDING SITE | 3.2.1.18 |
| 1MWI | CRYSTAL STRUCTURE OF A MUG-DNA PRODUCT COMPLEX | 3.2.2 3.2.2.28 |
| 1MWJ | CRYSTAL STRUCTURE OF A MUG-DNA PSEUDO SUBSTRATE COMPLEX | 3.2.2 3.2.2.28 |
| 1MWO | CRYSTAL STRUCTURE ANALYSIS OF THE HYPERTHERMOSTABLE PYROCOOCUS WOESEI ALPHA-AMYLASE | 3.2.1.1 |
| 1MWT | STRUCTURE OF PENICILLIN G ACYL-PENICILLIN BINDING PROTEIN 2A FROM METHICILLIN RESISTANT STAPHYLOCOCCUS AUREUS STRAIN 27R AT 2.45 A RESOLUTION. | 3.4.16.4 2.4.1.129 |
| 1MWY | SOLUTION STRUCTURE OF THE N-TERMINAL DOMAIN OF ZNTA IN THE APO-FORM | 3.6.3.3 3.6.3.5 7.2.2 7.2.2.12 7.2.2.21 |
| 1MWZ | SOLUTION STRUCTURE OF THE N-TERMINAL DOMAIN OF ZNTA IN THE ZN(II)-FORM | 3.6.3.3 3.6.3.5 7.2.2 7.2.2.12 7.2.2.21 |
| 1MXD | STRUCTURE OF A (CA,ZN)-DEPENDENT ALPHA-AMYLASE FROM THE HYPERTHERMOPHILIC ARCHAEON PYROCOCCUS WOESEI | 3.2.1.1 |
| 1MXG | CRYSTAL STRUCTURE OF A (CA,ZN)-DEPENDENT ALPHA-AMYLASE FROM THE HYPERTHERMOPHILIC ARCHAEON PYROCOCCUS WOESEI IN COMPLEX WITH ACARBOSE | 3.2.1.1 |
| 1MXO | AMPC BETA-LACTAMASE IN COMPLEX WITH AN M.CARBOXYPHENYLGLYCYLBORONIC ACID BEARING THE CEPHALOTHIN R1 SIDE CHAIN | 3.5.2.6 |
| 1MY8 | AMPC BETA-LACTAMASE IN COMPLEX WITH AN M.CARBOXYPHENYLGLYCYLBORONIC ACID BEARING THE CEPHALOTHIN R1 SIDE CHAIN | 3.5.2.6 |
| 1MYR | MYROSINASE FROM SINAPIS ALBA | 3.2.3.1 3.2.1.147 |
| 1MZ5 | TRYPANOSOMA RANGELI SIALIDASE | 3.2.1.18 |
| 1MZ6 | TRYPANOSOMA RANGELI SIALIDASE IN COMPLEX WITH THE INHIBITOR DANA | 3.2.1.18 |
| 1MZA | CRYSTAL STRUCTURE OF HUMAN PRO-GRANZYME K | 3.4.21 |
| 1MZD | CRYSTAL STRUCTURE OF HUMAN PRO-GRANZYME K | 3.4.21 |
| 1MZK | NMR STRUCTURE OF KINASE-INTERACTING FHA DOMAIN OF KINASE ASSOCIATED PROTEIN PHOSPHATASE, KAPP IN ARABIDOPSIS | 3.1.3.16 |
| 1N1L | CRYSTAL STRUCTURE OF HCV NS3 PROTEASE DOMAIN:NS4A PEPTIDE COMPLEX WITH COVALENTLY BOUND INHIBITOR (GW472467X) | 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 2.7.7.48 |
| 1N1M | HUMAN DIPEPTIDYL PEPTIDASE IV/CD26 IN COMPLEX WITH AN INHIBITOR | 3.4.14.5 |
| 1N1S | TRYPANOSOMA RANGELI SIALIDASE | 3.2.1.18 |
| 1N1T | TRYPANOSOMA RANGELI SIALIDASE IN COMPLEX WITH DANA AT 1.6 A | 3.2.1.18 |
| 1N1V | TRYPANOSOMA RANGELI SIALIDASE IN COMPLEX WITH DANA | 3.2.1.18 |
| 1N1X | CRYSTAL STRUCTURE ANALYSIS OF THE MONOMERIC [S-CARBOXYAMIDOMETHYL-CYS31, S-CARBOXYAMIDOMETHYL-CYS32] BOVINE SEMINAL RIBONUCLEASE | 3.1.27.5 4.6.1.18 |
| 1N1Y | TRYPANOSOMA RANGELI SIALIDASE IN COMPLEX WITH SIALIC ACID | 3.2.1.18 |
| 1N25 | CRYSTAL STRUCTURE OF THE SV40 LARGE T ANTIGEN HELICASE DOMAIN | 3.6.4 |
| 1N28 | CRYSTAL STRUCTURE OF THE H48Q MUTANT OF HUMAN GROUP IIA PHOSPHOLIPASE A2 | 3.1.1.4 |
| 1N29 | CRYSTAL STRUCTURE OF THE N1A MUTANT OF HUMAN GROUP IIA PHOSPHOLIPASE A2 | 3.1.1.4 |
| 1N2K | CRYSTAL STRUCTURE OF A COVALENT INTERMEDIATE OF ENDOGENOUS HUMAN ARYLSULFATASE A | 3.1.6.8 |
| 1N2L | CRYSTAL STRUCTURE OF A COVALENT INTERMEDIATE OF ENDOGENOUS HUMAN ARYLSULFATASE A | 3.1.6.8 |
| 1N39 | STRUCTURAL AND BIOCHEMICAL EXPLORATION OF A CRITICAL AMINO ACID IN HUMAN 8-OXOGUANINE GLYCOSYLASE | 3.2.2 4.2.99.18 |
| 1N3A | STRUCTURAL AND BIOCHEMICAL EXPLORATION OF A CRITICAL AMINO ACID IN HUMAN 8-OXOGUANINE GLYCOSYLASE | 3.2.2 4.2.99.18 |
| 1N3C | STRUCTURAL AND BIOCHEMICAL EXPLORATION OF A CRITICAL AMINO ACID IN HUMAN 8-OXOGUANINE GLYCOSYLASE | 3.2.2 4.2.99.18 |
| 1N3E | CRYSTAL STRUCTURE OF I-CREI BOUND TO A PALINDROMIC DNA SEQUENCE I (PALINDROME OF LEFT SIDE OF WILDTYPE DNA TARGET SEQUENCE) | 3.1 |
| 1N3F | CRYSTAL STRUCTURE OF I-CREI BOUND TO A PALINDROMIC DNA SEQUENCE II (PALINDROME OF RIGHT SIDE OF WILDTYPE DNA TARGET SEQUENCE) | 3.1 |
| 1N3S | BIOSYNTHESIS OF PTERIDINS. REACTION MECHANISM OF GTP CYCLOHYDROLASE I | 3.5.4.16 |
| 1N3Z | CRYSTAL STRUCTURE OF THE [S-CARBOXYAMIDOMETHYL-CYS31, S-CARBOXYAMIDOMETHYL-CYS32] MONOMERIC DERIVATIVE OF THE BOVINE SEMINAL RIBONUCLEASE IN THE LIGANDED STATE | 3.1.27.5 4.6.1.18 |
| 1N49 | VIABILITY OF A DRUG-RESISTANT HIV-1 PROTEASE VARIANT: STRUCTURAL INSIGHTS FOR BETTER ANTI-VIRAL THERAPY | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1N4C | NMR STRUCTURE OF THE J-DOMAIN AND CLATHRIN SUBSTRATE BINDING DOMAIN OF BOVINE AUXILIN | 3.1.3.48 |
| 1N4F | PARA-ARSANILATE DERIVATIVE OF HEN EGG-WHITE LYSOZYME | 3.2.1.17 |
| 1N4L | A DNA ANALOGUE OF THE POLYPURINE TRACT OF HIV-1 | 2.7.7.49 3.4.23 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1N4O | CRYSTAL STRUCTURE OF THE CLASS A BETA-LACTAMASE L2 FROM STENOTROPHOMONAS MALTOPHILIA | 3.5.2.6 |
| 1N4Y | REFINED STRUCTURE OF KISTRIN | 3.4.24 |
| 1N51 | AMINOPEPTIDASE P IN COMPLEX WITH THE INHIBITOR APSTATIN | 3.4.11.9 |
| 1N57 | CRYSTAL STRUCTURE OF CHAPERONE HSP31 | 3.1.2 3.5.1 3.5.1.124 4.2.1.130 |
| 1N5M | CRYSTAL STRUCTURE OF THE MOUSE ACETYLCHOLINESTERASE-GALLAMINE COMPLEX | 3.1.1.7 |
| 1N5N | CRYSTAL STRUCTURE OF PEPTIDE DEFORMYLASE FROM PSEUDOMONAS AERUGINOSA | 3.5.1.88 |
| 1N5R | CRYSTAL STRUCTURE OF THE MOUSE ACETYLCHOLINESTERASE-PROPIDIUM COMPLEX | 3.1.1.7 |
| 1N5Y | HIV-1 REVERSE TRANSCRIPTASE CROSSLINKED TO POST-TRANSLOCATION AZTMP-TERMINATED DNA (COMPLEX P) | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1N6G | THE STRUCTURE OF IMMATURE DENGUE-2 PRM PARTICLES | 3.4.21.91 3.6.1.15 3.6.4.13 2.1.1.56 2.1.1.57 2.7.7.48 |
| 1N6H | CRYSTAL STRUCTURE OF HUMAN RAB5A | 3.6.5.2 |
| 1N6I | CRYSTAL STRUCTURE OF HUMAN RAB5A A30P MUTANT COMPLEX WITH GDP | 3.6.5.2 |
| 1N6K | CRYSTAL STRUCTURE OF HUMAN RAB5A A30P MUTANT COMPLEX WITH GDP AND ALUMINUM FLUORIDE | 3.6.5.2 |
| 1N6L | CRYSTAL STRUCTURE OF HUMAN RAB5A A30P MUTANT COMPLEX WITH GTP | 3.6.5.2 |
| 1N6N | CRYSTAL STRUCTURE OF HUMAN RAB5A A30R MUTANT COMPLEX WITH GPPNHP | 3.6.5.2 |
| 1N6O | CRYSTAL STRUCTURE OF HUMAN RAB5A A30K MUTANT COMPLEX WITH GPPNHP | 3.6.5.2 |
| 1N6P | CRYSTAL STRUCTURE OF HUMAN RAB5A A30E MUTANT COMPLEX WITH GPPNHP | 3.6.5.2 |
| 1N6Q | HIV-1 REVERSE TRANSCRIPTASE CROSSLINKED TO PRE-TRANSLOCATION AZTMP-TERMINATED DNA (COMPLEX N) | 2.7.7.49 3.4.23.16 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1N6R | CRYSTAL STRUCTURE OF HUMAN RAB5A A30L MUTANT COMPLEX WITH GPPNHP | 3.6.5.2 |
| 1N6X | RIP-PHASING ON BOVINE TRYPSIN | 3.4.21.4 |
| 1N6Y | RIP-PHASING ON BOVINE TRYPSIN | 3.4.21.4 |
| 1N76 | CRYSTAL STRUCTURE OF HUMAN SEMINAL LACTOFERRIN AT 3.4 A RESOLUTION | 3.4.21 |
| 1N8N | CRYSTAL STRUCTURE OF THE AU3+ COMPLEX OF APHA CLASS B ACID PHOSPHATASE/PHOSPHOTRANSFERASE FROM E. COLI AT 1.69 A RESOLUTION | 3.1.3.2 |
| 1N8O | CRYSTAL STRUCTURE OF A COMPLEX BETWEEN BOVINE CHYMOTRYPSIN AND ECOTIN | 3.4.21.1 |
| 1N8S | STRUCTURE OF THE PANCREATIC LIPASE-COLIPASE COMPLEX | 3.1.1.3 |
| 1N9B | ULTRAHIGH RESOLUTION STRUCTURE OF A CLASS A BETA-LACTAMASE: ON THE MECHANISM AND SPECIFICITY OF THE EXTENDED-SPECTRUM SHV-2 ENZYME | 3.5.2.6 |
| 1N9K | CRYSTAL STRUCTURE OF THE BROMIDE ADDUCT OF APHA CLASS B ACID PHOSPHATASE/PHOSPHOTRANSFERASE FROM E. COLI AT 2.2 A RESOLUTION | 3.1.3.2 |
| 1NA1 | THE STRUCTURE OF HRV14 WHEN COMPLEXED WITH PLECONARIL | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1NA6 | CRYSTAL STRUCTURE OF RESTRICTION ENDONUCLEASE ECORII MUTANT R88A | 3.1.21.4 |
| 1NAE | STRUCTURE OF CSCBM6-3 FROM CLOSTRIDIUM STERCORARIUM IN COMPLEX WITH XYLOTRIOSE | 3.2.1.8 |
| 1NB3 | CRYSTAL STRUCTURE OF STEFIN A IN COMPLEX WITH CATHEPSIN H: N-TERMINAL RESIDUES OF INHIBITORS CAN ADAPT TO THE ACTIVE SITES OF ENDO-AND EXOPEPTIDASES | 3.4.22.16 |
| 1NB4 | HC-J4 RNA POLYMERASE APO-FORM | 2.7.7.48 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 |
| 1NB5 | CRYSTAL STRUCTURE OF STEFIN A IN COMPLEX WITH CATHEPSIN H | 3.4.22.16 |
| 1NB6 | HC-J4 RNA POLYMERASE COMPLEXED WITH UTP | 2.7.7.48 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 |
| 1NB7 | HC-J4 RNA POLYMERASE COMPLEXED WITH SHORT RNA TEMPLATE STRAND | 2.7.7.48 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 |
| 1NB8 | STRUCTURE OF THE CATALYTIC DOMAIN OF USP7 (HAUSP) | 3.1.2.15 3.4.19.12 |
| 1NBA | CRYSTAL STRUCTURE ANALYSIS, REFINEMENT AND ENZYMATIC REACTION MECHANISM OF N-CARBAMOYLSARCOSINE AMIDOHYDROLASE FROM ARTHROBACTER SP. AT 2.0 ANGSTROMS RESOLUTION | 3.5.1.59 |
| 1NBF | CRYSTAL STRUCTURE OF A UBP-FAMILY DEUBIQUITINATING ENZYME IN ISOLATION AND IN COMPLEX WITH UBIQUITIN ALDEHYDE | 3.1.2.15 3.4.19.12 |
| 1NC1 | CRYSTAL STRUCTURE OF E. COLI MTA/ADOHCY NUCLEOSIDASE COMPLEXED WITH 5'-METHYLTHIOTUBERCIDIN (MTH) | 3.2.2.9 3.2.2.16 |
| 1NC3 | CRYSTAL STRUCTURE OF E. COLI MTA/ADOHCY NUCLEOSIDASE COMPLEXED WITH FORMYCIN A (FMA) | 3.2.2.9 |
| 1NC5 | STRUCTURE OF PROTEIN OF UNKNOWN FUNCTION OF YTER FROM BACILLUS SUBTILIS | 3.2.1.172 |
| 1NC6 | POTENT, SMALL MOLECULE INHIBITORS OF HUMAN MAST CELL TRYPTASE. ANTI-ASTHMATIC ACTION OF A DIPEPTIDE-BASED TRANSITION STATE ANALOGUE CONTAINING BENZOTHIAZOLE KETONE | 3.4.21.4 |
| 1NC8 | HIGH-RESOLUTION SOLUTION NMR STRUCTURE OF THE MINIMAL ACTIVE DOMAIN OF THE HUMAN IMMUNODEFICIENCY VIRUS TYPE-2 NUCLEOCAPSID PROTEIN, 15 STRUCTURES | 3.4.23.47 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1NCP | STRUCTURAL CHARACTERIZATION OF A 39 RESIDUE SYNTHETIC PEPTIDE CONTAINING THE TWO ZINC BINDING DOMAINS FROM THE HIV-1 P7 NUCLEOCAPSID PROTEIN BY CD AND NMR SPECTROSCOPY | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1NCQ | THE STRUCTURE OF HRV14 WHEN COMPLEXED WITH PLECONARIL, AN ANTIVIRAL COMPOUND | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1NCR | THE STRUCTURE OF RHINOVIRUS 16 WHEN COMPLEXED WITH PLECONARIL, AN ANTIVIRAL COMPOUND | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1ND1 | AMINO ACID SEQUENCE AND CRYSTAL STRUCTURE OF BAP1, A METALLOPROTEINASE FROM BOTHROPS ASPER SNAKE VENOM THAT EXERTS MULTIPLE TISSUE-DAMAGING ACTIVITIES. | 3.4.24 |
| 1ND2 | THE STRUCTURE OF RHINOVIRUS 16 | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1ND3 | THE STRUCTURE OF HRV16, WHEN COMPLEXED WITH PLECONARIL, AN ANTIVIRAL COMPOUND | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1ND5 | CRYSTAL STRUCTURES OF HUMAN PROSTATIC ACID PHOSPHATASE IN COMPLEX WITH A PHOSPHATE ION AND ALPHA-BENZYLAMINOBENZYLPHOSPHONIC ACID UPDATE THE MECHANISTIC PICTURE AND OFFER NEW INSIGHTS INTO INHIBITOR DESIGN | 3.1.3.2 3.1.3.5 |
| 1ND6 | CRYSTAL STRUCTURES OF HUMAN PROSTATIC ACID PHOSPHATASE IN COMPLEX WITH A PHOSPHATE ION AND ALPHA-BENZYLAMINOBENZYLPHOSPHONIC ACID UPDATE THE MECHANISTIC PICTURE AND OFFER NEW INSIGHTS INTO INHIBITOR DESIGN | 3.1.3.2 3.1.3.5 |
| 1NDQ | BACILLUS LENTUS SUBTILISIN | 3.4.21.62 |
| 1NDU | BACILLUS LENTUS SUBTILISIN VARIANT S101G/V104N | 3.4.21.62 |
| 1NDV | CRYSTAL STRUCTURE OF ADENOSINE DEAMINASE COMPLEXED WITH FR117016 | 3.5.4.4 |
| 1NDW | CRYSTAL STRUCTURE OF ADENOSINE DEAMINASE COMPLEXED WITH FR221647 | 3.5.4.4 |
| 1NDY | CRYSTAL STRUCTURE OF ADENOSINE DEAMINASE COMPLEXED WITH FR230513 | 3.5.4.4 |
| 1NDZ | CRYSTAL STRUCTURE OF ADENOSINE DEAMINASE COMPLEXED WITH FR235999 | 3.5.4.4 |
| 1NE7 | HUMAN GLUCOSAMINE-6-PHOSPHATE DEAMINASE ISOMERASE AT 1.75 A RESOLUTION COMPLEXED WITH N-ACETYL-GLUCOSAMINE-6-PHOSPHATE AND 2-DEOXY-2-AMINO-GLUCITOL-6-PHOSPHATE | 3.5.99.6 |
| 1NE8 | YDCE PROTEIN FROM BACILLUS SUBTILIS | 3.1.27 |
| 1NED | CRYSTAL STRUCTURE OF HSLV (CLPQ) AT 3.8 ANGSTROMS RESOLUTION | 3.4.99 3.4.25.2 |
| 1NES | STRUCTURE OF THE PRODUCT COMPLEX OF ACETYL-ALA-PRO-ALA WITH PORCINE PANCREATIC ELASTASE AT 1.65 ANGSTROMS RESOLUTION | 3.4.21.36 |
| 1NF3 | STRUCTURE OF CDC42 IN A COMPLEX WITH THE GTPASE-BINDING DOMAIN OF THE CELL POLARITY PROTEIN, PAR6 | 3.6.5.2 |
| 1NF8 | CRYSTAL STRUCTURE OF PHZD PROTEIN ACTIVE SITE MUTANT WITH SUBSTRATE | 3.3.2.1 3.3.2.15 |
| 1NF9 | CRYSTAL STRUCTURE OF PHZD PROTEIN FROM PSEUDOMONAS AERUGINOSA | 3.3.2.1 3.3.2.15 |
| 1NFG | STRUCTURE OF D-HYDANTOINASE | 3.5.2.2 3.5.2 |
| 1NFU | CRYSTAL STRUCTURE OF HUMAN COAGULATION FACTOR XA COMPLEXED WITH RPR132747 | 3.4.21.6 |
| 1NFW | CRYSTAL STRUCTURE OF HUMAN COAGULATION FACTOR XA COMPLEXED WITH RPR209685 | 3.4.21.6 |
| 1NFX | CRYSTAL STRUCTURE OF HUMAN COAGULATION FACTOR XA COMPLEXED WITH RPR208944 | 3.4.21.6 |
| 1NFY | CRYSTAL STRUCTURE OF HUMAN COAGULATION FACTOR XA COMPLEXED WITH RPR200095 | 3.4.21.6 |
| 1NG7 | THE SOLUTION STRUCTURE OF THE SOLUBLE DOMAIN OF POLIOVIRUS 3A PROTEIN | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1NGA | STRUCTURAL BASIS OF THE 70-KILODALTON HEAT SHOCK COGNATE PROTEIN ATP HYDROLYTIC ACTIVITY, II. STRUCTURE OF THE ACTIVE SITE WITH ADP OR ATP BOUND TO WILD TYPE AND MUTANT ATPASE FRAGMENT | 3.6.1.3 |
| 1NGB | STRUCTURAL BASIS OF THE 70-KILODALTON HEAT SHOCK COGNATE PROTEIN ATP HYDROLYTIC ACTIVITY, II. STRUCTURE OF THE ACTIVE SITE WITH ADP OR ATP BOUND TO WILD TYPE AND MUTANT ATPASE FRAGMENT | 3.6.1.3 |
| 1NGC | STRUCTURAL BASIS OF THE 70-KILODALTON HEAT SHOCK COGNATE PROTEIN ATP HYDROLYTIC ACTIVITY, II. STRUCTURE OF THE ACTIVE SITE WITH ADP OR ATP BOUND TO WILD TYPE AND MUTANT ATPASE FRAGMENT | 3.6.1.3 |
| 1NGD | STRUCTURAL BASIS OF THE 70-KILODALTON HEAT SHOCK COGNATE PROTEIN ATP HYDROLYTIC ACTIVITY, II. STRUCTURE OF THE ACTIVE SITE WITH ADP OR ATP BOUND TO WILD TYPE AND MUTANT ATPASE FRAGMENT | 3.6.1.3 |
| 1NGE | STRUCTURAL BASIS OF THE 70-KILODALTON HEAT SHOCK COGNATE PROTEIN ATP HYDROLYTIC ACTIVITY, II. STRUCTURE OF THE ACTIVE SITE WITH ADP OR ATP BOUND TO WILD TYPE AND MUTANT ATPASE FRAGMENT | 3.6.1.3 |
| 1NGF | STRUCTURAL BASIS OF THE 70-KILODALTON HEAT SHOCK COGNATE PROTEIN ATP HYDROLYTIC ACTIVITY, II. STRUCTURE OF THE ACTIVE SITE WITH ADP OR ATP BOUND TO WILD TYPE AND MUTANT ATPASE FRAGMENT | 3.6.1.3 |
| 1NGG | STRUCTURAL BASIS OF THE 70-KILODALTON HEAT SHOCK COGNATE PROTEIN ATP HYDROLYTIC ACTIVITY, II. STRUCTURE OF THE ACTIVE SITE WITH ADP OR ATP BOUND TO WILD TYPE AND MUTANT ATPASE FRAGMENT | 3.6.1.3 |
| 1NGH | STRUCTURAL BASIS OF THE 70-KILODALTON HEAT SHOCK COGNATE PROTEIN ATP HYDROLYTIC ACTIVITY, II. STRUCTURE OF THE ACTIVE SITE WITH ADP OR ATP BOUND TO WILD TYPE AND MUTANT ATPASE FRAGMENT | 3.6.1.3 |
| 1NGI | STRUCTURAL BASIS OF THE 70-KILODALTON HEAT SHOCK COGNATE PROTEIN ATP HYDROLYTIC ACTIVITY, II. STRUCTURE OF THE ACTIVE SITE WITH ADP OR ATP BOUND TO WILD TYPE AND MUTANT ATPASE FRAGMENT | 3.6.1.3 |
| 1NGJ | STRUCTURAL BASIS OF THE 70-KILODALTON HEAT SHOCK COGNATE PROTEIN ATP HYDROLYTIC ACTIVITY, II. STRUCTURE OF THE ACTIVE SITE WITH ADP OR ATP BOUND TO WILD TYPE AND MUTANT ATPASE FRAGMENT | 3.6.1.3 |
| 1NGN | MISMATCH REPAIR IN METHYLATED DNA. STRUCTURE OF THE MISMATCH-SPECIFIC THYMINE GLYCOSYLASE DOMAIN OF METHYL-CPG-BINDING PROTEIN MBD4 | 3.2.2 |
| 1NH0 | 1.03 A STRUCTURE OF HIV-1 PROTEASE: INHIBITOR BINDING INSIDE AND OUTSIDE THE ACTIVE SITE | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1NH6 | STRUCTURE OF S. MARCESCENS CHITINASE A, E315L, COMPLEX WITH HEXASACCHARIDE | 3.2.1.14 |
| 1NHB | SPECIFICITY OF LIGAND BINDING IN A BURIED NON-POLAR CAVITY OF T4 LYSOZYME: LINKAGE OF DYNAMICS AND STRUCTURAL PLASTICITY | 3.2.1.17 |
| 1NHC | STRUCTURAL INSIGHTS INTO THE PROCESSIVITY OF ENDOPOLYGALACTURONASE I FROM ASPERGILLUS NIGER | 3.2.1.15 |
| 1NHU | HEPATITIS C VIRUS RNA POLYMERASE IN COMPLEX WITH NON-NUCLEOSIDE ANALOGUE INHIBITOR | 2.7.7.48 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 |
| 1NHV | HEPATITIS C VIRUS RNA POLYMERASE IN COMPLEX WITH NON-NUCLEOSIDE ANALOGUE INHIBITOR | 2.7.7.48 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 |
| 1NI0 | STRUCTURE OF THE Y94F MUTANT OF THE RESTRICTION ENDONUCLEASE PVUII | 3.1.21.4 |
| 1NI9 | 2.0 A STRUCTURE OF GLYCEROL METABOLISM PROTEIN FROM E. COLI | 3.1.3.11 |
| 1NIJ | YJIA PROTEIN | 3.6 |
| 1NIO | CRYSTAL STRUCTURE OF BETA-LUFFIN, A RIBOSOME INACTIVATING PROTEIN AT 2.0A RESOLUTION | 3.2.2.22 |
| 1NJ4 | CRYSTAL STRUCTURE OF A DEACYLATION-DEFECTIVE MUTANT OF PENICILLIN-BINDING PROTEIN 5 AT 1.9 A RESOLUTION | 3.4.16.4 3.5.2.6 |
| 1NJK | CRYSTAL STRUCTURE OF YBAW PROBABLE THIOESTERASE FROM ESCHERICHIA COLI | 3.1.2 |
| 1NJR | CRYSTAL STRUCTURE OF YEAST YMX7, AN ADP-RIBOSE-1''-MONOPHOSPHATASE | 3.1.3.84 |
| 1NJT | COMPLEX STRUCTURE OF HCMV PROTEASE AND A PEPTIDOMIMETIC INHIBITOR | 3.4.21.97 |
| 1NJU | COMPLEX STRUCTURE OF HCMV PROTEASE AND A PEPTIDOMIMETIC INHIBITOR | 3.4.21.97 |
| 1NKK | COMPLEX STRUCTURE OF HCMV PROTEASE AND A PEPTIDOMIMETIC INHIBITOR | 3.4.21.97 |
| 1NKM | COMPLEX STRUCTURE OF HCMV PROTEASE AND A PEPTIDOMIMETIC INHIBITOR | 3.4.21.97 |
| 1NKQ | CRYSTAL STRUCTURE OF YEAST YNQ8, A FUMARYLACETOACETATE HYDROLASE FAMILY PROTEIN | 3 |
| 1NKU | NMR SOLUTION STRUCTURE OF ZINC-BINDING PROTEIN 3-METHYLADENINE DNA GLYCOSYLASE I (TAG) | 3.2.2.20 |
| 1NKX | CRYSTAL STRUCTURE OF A PROTEOLYTICALLY GENERATED FUNCTIONAL MONOFERRIC C-LOBE OF BOVINE LACTOFERRIN AT 1.9A RESOLUTION | 3.4.21 |
| 1NL1 | BOVINE PROTHROMBIN FRAGMENT 1 IN COMPLEX WITH CALCIUM ION | 3.4.21.5 |
| 1NL2 | BOVINE PROTHROMBIN FRAGMENT 1 IN COMPLEX WITH CALCIUM AND LYSOPHOSPHOTIDYLSERINE | 3.4.21.5 |
| 1NL6 | CRYSTAL STRUCTURE OF THE CYSTEINE PROTEASE HUMAN CATHEPSIN K IN COMPLEX WITH A COVALENT AZEPANONE INHIBITOR | 3.4.22.38 |
| 1NL9 | POTENT, SELECTIVE PROTEIN TYROSINE PHOSPHATASE 1B INHIBITOR COMPOUND 12 USING A LINKED-FRAGMENT STRATEGY | 3.1.3.48 |
| 1NLI | COMPLEX OF [E160A-E189A] TRICHOSANTHIN AND ADENINE | 3.2.2.22 |
| 1NLJ | CRYSTAL STRUCTURE OF THE CYSTEINE PROTEASE HUMAN CATHEPSIN K IN COMPLEX WITH A COVALENT AZEPANONE INHIBITOR | 3.4.22.38 |
| 1NLN | CRYSTAL STRUCTURE OF HUMAN ADENOVIRUS 2 PROTEINASE WITH ITS 11 AMINO ACID COFACTOR AT 1.6 ANGSTROM RESOLUTION | 3.4.22.39 |
| 1NLR | ENDO-1,4-BETA-GLUCANASE CELB2, CELLULASE, NATIVE STRUCTURE | 3.2.1.4 |
| 1NLU | PSEUDOMONAS SEDOLISIN (SERINE-CARBOXYL PROTEINASE) COMPLEXED WITH TWO MOLECULES OF PSEUDO-IODOTYROSTATIN | 3.4.21.100 |
| 1NM6 | THROMBIN IN COMPLEX WITH SELECTIVE MACROCYCLIC INHIBITOR AT 1.8A | 3.4.21.5 |
| 1NM9 | CRYSTAL STRUCTURE OF RECOMBINANT HUMAN SALIVARY AMYLASE MUTANT W58A | 3.2.1.1 |
| 1NMC | COMPLEX BETWEEN NC10 ANTI-INFLUENZA VIRUS NEURAMINIDASE SINGLE CHAIN ANTIBODY WITH A 15 RESIDUE LINKER AND INFLUENZA VIRUS NEURAMINIDASE | 3.2.1.18 |
| 1NME | STRUCTURE OF CASP-3 WITH TETHERED SALICYLATE | 3.4.22 3.4.22.56 |
| 1NMN | STRUCTURE OF YQGF FROM ESCHERICHIA COLI, A HYPOTHETICAL PROTEIN | 3.1 |
| 1NMQ | EXTENDEND TETHERING: IN SITU ASSEMBLY OF INHIBITORS | 3.4.22 3.4.22.56 |
| 1NMS | CASPASE-3 TETHERED TO IRREVERSIBLE INHIBITOR | 3.4.22 3.4.22.56 |
| 1NN2 | THREE-DIMENSIONAL STRUCTURE OF THE NEURAMINIDASE OF INFLUENZA VIRUS A(SLASH)TOKYO(SLASH)3(SLASH)67 AT 2.2 ANGSTROMS RESOLUTION | 3.2.1.18 |
| 1NN6 | HUMAN PRO-CHYMASE | 3.4.21.39 |
| 1NN8 | CRYOEM STRUCTURE OF POLIOVIRUS RECEPTOR BOUND TO POLIOVIRUS | 3.4.22.29 3.6.1.15 3.4.22.28 2.7.7.48 |
| 1NNA | THREE-DIMENSIONAL STRUCTURE OF INFLUENZA A N9 NEURAMINIDASE AND ITS COMPLEX WITH THE INHIBITOR 2-DEOXY 2,3-DEHYDRO-N-ACETYL NEURAMINIC ACID | 3.2.1.18 |
| 1NNB | THREE-DIMENSIONAL STRUCTURE OF INFLUENZA A N9 NEURAMINIDASE AND ITS COMPLEX WITH THE INHIBITOR 2-DEOXY 2,3-DEHYDRO-N-ACETYL NEURAMINIC ACID | 3.2.1.18 |
| 1NNC | INFLUENZA VIRUS NEURAMINIDASE SUBTYPE N9 (TERN) COMPLEXED WITH 4-GUANIDINO-NEU5AC2EN INHIBITOR | 3.2.1.18 |
| 1NND | ARGININE 116 IS ESSENTIAL FOR NUCLEIC ACID RECOGNITION BY THE FINGERS DOMAIN OF MOLONEY MURINE LEUKEMIA VIRUS REVERSE TRANSCRIPTASE | 2.7.7.49 3.4.23 2.7.7.7 3.1.26.4 2.7.7 3.1 |
| 1NNJ | CRYSTAL STRUCTURE COMPLEX BETWEEN THE LACTOCOCCUS LACTIS FPG AND AN ABASIC SITE CONTAINING DNA | 3.2.2.23 4.2.99.18 |
| 1NNL | CRYSTAL STRUCTURE OF HUMAN PHOSPHOSERINE PHOSPHATASE | 3.1.3.3 |
| 1NNS | L-ASPARAGINASE OF E. COLI IN C2 SPACE GROUP AND 1.95 A RESOLUTION | 3.5.1.1 |
| 1NNY | POTENT, SELECTIVE PROTEIN TYROSINE PHOSPHATASE 1B INHIBITOR COMPOUND 23 USING A LINKED-FRAGMENT STRATEGY | 3.1.3.48 |
| 1NO6 | POTENT, SELECTIVE PROTEIN TYROSINE PHOSPHATASE 1B INHIBITOR COMPOUND 5 USING A LINKED-FRAGMENT STRATEGY | 3.1.3.48 |
| 1NO9 | DESIGN OF WEAKLY BASIC THROMBIN INHIBITORS INCORPORATING NOVEL P1 BINDING FUNCTIONS: MOLECULAR AND X-RAY CRYSTALLOGRAPHIC STUDIES. | 3.4.21.5 |
| 1NOF | THE FIRST CRYSTALLOGRAPHIC STRUCTURE OF A XYLANASE FROM GLYCOSYL HYDROLASE FAMILY 5: IMPLICATIONS FOR CATALYSIS | 3.2.1.8 |
| 1NOP | CRYSTAL STRUCTURE OF HUMAN TYROSYL-DNA PHOSPHODIESTERASE (TDP1) IN COMPLEX WITH VANADATE, DNA AND A HUMAN TOPOISOMERASE I-DERIVED PEPTIDE | 3.1.4 |
| 1NOU | NATIVE HUMAN LYSOSOMAL BETA-HEXOSAMINIDASE ISOFORM B | 3.2.1.52 |
| 1NOV | NODAMURA VIRUS | 3.4.23.44 |
| 1NOW | HUMAN LYSOSOMAL BETA-HEXOSAMINIDASE ISOFORM B IN COMPLEX WITH (2R,3R,4S,5R)-2-ACETAMIDO-3,4-DIHYDROXY-5-HYDROXYMETHYL-PIPERIDINIUM CHLORIDE (GALNAC-ISOFAGOMINE) | 3.2.1.52 |
| 1NOY | DNA POLYMERASE (E.C.2.7.7.7)/DNA COMPLEX | 2.7.7.7 3.1.11 |
| 1NOZ | T4 DNA POLYMERASE FRAGMENT (RESIDUES 1-388) AT 110K | 2.7.7.7 3.1.11 |
| 1NP0 | HUMAN LYSOSOMAL BETA-HEXOSAMINIDASE ISOFORM B IN COMPLEX WITH INTERMEDIATE ANALOGUE NAG-THIAZOLINE | 3.2.1.52 |
| 1NP2 | CRYSTAL STRUCTURE OF THERMOSTABLE BETA-GLYCOSIDASE FROM THERMOPHILIC EUBACTERIUM THERMUS NONPROTEOLYTICUS HG102 | 3.2.1.21 |
| 1NPA | CRYSTAL STRUCTURE OF HIV-1 PROTEASE-HUP | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1NPC | THE STRUCTURE OF NEUTRAL PROTEASE FROM BACILLUS CEREUS AT 0.2-NM RESOLUTION | 3.4.24.27 3.4.24.28 |
| 1NPM | NEUROPSIN, A SERINE PROTEASE EXPRESSED IN THE LIMBIC SYSTEM OF MOUSE BRAIN | 3.4.21.118 |
| 1NPV | CRYSTAL STRUCTURE OF HIV-1 PROTEASE COMPLEXED WITH LDC271 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1NPW | CRYSTAL STRUCTURE OF HIV PROTEASE COMPLEXED WITH LGZ479 | 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1NPZ | CRYSTAL STRUCTURES OF CATHEPSIN S INHIBITOR COMPLEXES | 3.4.22.27 |
| 1NQ3 | CRYSTAL STRUCTURE OF THE MAMMALIAN TUMOR ASSOCIATED ANTIGEN UK114 | 3.5.99.10 3.1 |
| 1NQ6 | CRYSTAL STRUCTURE OF THE CATALYTIC DOMAIN OF XYLANASE A FROM STREPTOMYCES HALSTEDII JM8 | 3.2.1.8 |
| 1NQC | CRYSTAL STRUCTURES OF CATHEPSIN S INHIBITOR COMPLEXES | 3.4.22.27 |
| 1NQD | CRYSTAL STRUCTURE OF CLOSTRIDIUM HISTOLYTICUM COLG COLLAGENASE COLLAGEN-BINDING DOMAIN 3B AT 1.65 ANGSTROM RESOLUTION IN PRESENCE OF CALCIUM | 3.4.24.3 |
| 1NQJ | CRYSTAL STRUCTURE OF CLOSTRIDIUM HISTOLYTICUM COLG COLLAGENASE COLLAGEN-BINDING DOMAIN 3B AT 1.0 ANGSTROM RESOLUTION IN ABSENCE OF CALCIUM | 3.4.24.3 |
| 1NQY | THE STRUCTURE OF A COA PYROPHOSPHATASE FROM D. RADIODURANS | 3.6.1.9 |
| 1NQZ | THE STRUCTURE OF A COA PYROPHOSPHATASE FROM D. RADIODURANS COMPLEXED WITH A MAGNESIUM ION | 3.6.1.9 |
| 1NRN | CRYSTALLOGRAPHIC STRUCTURES OF THROMBIN COMPLEXED WITH THROMBIN RECEPTOR PEPTIDES: EXISTENCE OF EXPECTED AND NOVEL BINDING MODES | 3.4.21.5 |
| 1NRO | CRYSTALLOGRAPHIC STRUCTURES OF THROMBIN COMPLEXED WITH THROMBIN RECEPTOR PEPTIDES: EXISTENCE OF EXPECTED AND NOVEL BINDING MODES | 3.4.21.5 |
| 1NRP | CRYSTALLOGRAPHIC STRUCTURES OF THROMBIN COMPLEXED WITH THROMBIN RECEPTOR PEPTIDES: EXISTENCE OF EXPECTED AND NOVEL BINDING MODES | 3.4.21.5 |
| 1NRQ | CRYSTALLOGRAPHIC STRUCTURES OF THROMBIN COMPLEXED WITH THROMBIN RECEPTOR PEPTIDES: EXISTENCE OF EXPECTED AND NOVEL BINDING MODES | 3.4.21.5 |
| 1NRR | CRYSTALLOGRAPHIC STRUCTURES OF THROMBIN COMPLEXED WITH THROMBIN RECEPTOR PEPTIDES: EXISTENCE OF EXPECTED AND NOVEL BINDING MODES | 3.4.21.5 |
| 1NRS | CRYSTALLOGRAPHIC STRUCTURES OF THROMBIN COMPLEXED WITH THROMBIN RECEPTOR PEPTIDES: EXISTENCE OF EXPECTED AND NOVEL BINDING MODES | 3.4.21.5 |
| 1NRW | THE STRUCTURE OF A HALOACID DEHALOGENASE-LIKE HYDROLASE FROM B. SUBTILIS | 3.1.3 |
| 1NS3 | STRUCTURE OF HCV PROTEASE (BK STRAIN) | 3.4.22 3.4.21.98 3.6.1.15 3.6.4.13 2.7.7.48 |
| 1NSA | THREE-DIMENSIONAL STRUCTURE OF PORCINE PROCARBOXYPEPTIDASE B: A STRUCTURAL BASIS OF ITS INACTIVITY | 3.4.17.2 |
| 1NSB | THE 2.2 ANGSTROMS RESOLUTION CRYSTAL STRUCTURE OF INFLUENZA B NEURAMINIDASE AND ITS COMPLEX WITH SIALIC ACID | 3.2.1.18 |
| 1NSC | INFLUENZA B VIRUS NEURAMINIDASE CAN SYNTHESIZE ITS OWN INHIBITOR | 3.2.1.18 |
| 1NSD | INFLUENZA B VIRUS NEURAMINIDASE CAN SYNTHESIZE ITS OWN INHIBITOR | 3.2.1.18 |
| 1NSF | D2 HEXAMERIZATION DOMAIN OF N-ETHYLMALEIMIDE SENSITIVE FACTOR (NSF) | 3.6.4.6 |
| 1NSO | FOLDED MONOMER OF PROTEASE FROM MASON-PFIZER MONKEY VIRUS | 3.4.23 3.6.1.23 |
| 1NST | THE SULFOTRANSFERASE DOMAIN OF HUMAN HAPARIN SULFATE N-DEACETYLASE/N-SULFOTRANSFERASE | 2.8.2 2.8.2.8 3 |
| 1NT0 | CRYSTAL STRUCTURE OF THE CUB1-EGF-CUB2 REGION OF MASP2 | 3.4.21.104 |
| 1NT1 | THROMBIN IN COMPLEX WITH SELECTIVE MACROCYCLIC INHIBITOR | 3.4.21.5 |
| 1NT4 | CRYSTAL STRUCTURE OF ESCHERICHIA COLI PERIPLASMIC GLUCOSE-1-PHOSPHATASE H18A MUTANT COMPLEXED WITH GLUCOSE-1-PHOSPHATE | 3.1.3.10 |
| 1NTP | USE OF THE NEUTRON DIFFRACTION H/D EXCHANGE TECHNIQUE TO DETERMINE THE CONFORMATIONAL DYNAMICS OF TRYPSIN | 3.4.21.4 |
| 1NU0 | STRUCTURE OF THE DOUBLE MUTANT (L6M; F134M, SEMET FORM) OF YQGF FROM ESCHERICHIA COLI, A HYPOTHETICAL PROTEIN | 3.1 |
| 1NU3 | LIMONENE-1,2-EPOXIDE HYDROLASE IN COMPLEX WITH VALPROMIDE | 3.3.2.8 |
| 1NU6 | CRYSTAL STRUCTURE OF HUMAN DIPEPTIDYL PEPTIDASE IV (DPP-IV) | 3.4.14.5 |
| 1NU7 | STAPHYLOCOAGULASE-THROMBIN COMPLEX | 3.4.21.5 |
| 1NU8 | CRYSTAL STRUCTURE OF HUMAN DIPEPTIDYL PEPTIDASE IV (DPP-IV) IN COMPLEX WITH DIPROTIN A (IPI) | 3.4.14.5 |
| 1NU9 | STAPHYLOCOAGULASE-PRETHROMBIN-2 COMPLEX | 3.4.21.5 |
| 1NUC | STAPHYLOCOCCAL NUCLEASE, V23C VARIANT | 3.1.31.1 |
| 1NUI | CRYSTAL STRUCTURE OF THE PRIMASE FRAGMENT OF BACTERIOPHAGE T7 PRIMASE-HELICASE PROTEIN | 2.7.7 3.6.4.12 |
| 1NUW | FRUCTOSE-1,6-BISPHOSPHATASE COMPLEX WITH MAGNESIUM, FRUCTOSE-6-PHOSPHATE AND PHOSPHATE AT PH 9.6 | 3.1.3.11 |
| 1NUX | FRUCTOSE-1,6-BISPHOSPHATASE COMPLEX WITH MAGNESIUM, FRUCTOSE-6-PHOSPHATE, PHOSPHATE AND INHIBITORY CONCENTRATIONS OF POTASSIUM (200MM) | 3.1.3.11 |
| 1NUY | FRUCTOSE-1,6-BISPHOSPHATASE COMPLEX WITH MAGNESIUM, FRUCTOSE-6-PHOSPHATE, AND PHOSPHATE | 3.1.3.11 |
| 1NUZ | FRUCTOSE-1,6-BISPHOSPHATASE COMPLEX WITH MAGNESIUM, FRUCTOSE-6-PHOSPHATE AND PHOSPHATE | 3.1.3.11 |
| 1NV0 | FRUCTOSE-1,6-BISPHOSPHATASE COMPLEX WITH MAGNESIUM, FRUCTOSE-6-PHOSPHATE, PHOSPHATE AND 1 MM THALLIUM | 3.1.3.11 |
| 1NV1 | FRUCTOSE-1,6-BISPHOSPHATASE COMPLEX WITH MAGNESIUM, FRUCTOSE-6-PHOSPHATE, PHOSPHATE AND THALLIUM (5 MM) | 3.1.3.11 |
| 1NV2 | FRUCTOSE-1,6-BISPHOSPHATASE COMPLEX WITH MAGNESIUM, FRUCTOSE-6-PHOSPHATE, PHOSPHATE AND THALLIUM (20 MM) | 3.1.3.11 |
| 1NV3 | FRUCTOSE-1,6-BISPHOSPHATASE COMPLEX WITH MAGNESIUM, FRUCTOSE-6-PHOSPHATE, PHOSPHATE AND THALLIUM (100 MM) | 3.1.3.11 |
| 1NV4 | FRUCTOSE-1,6-BISPHOSPHATASE COMPLEX WITH MAGNESIUM, FRUCTOSE-6-PHOSPHATE, PHOSPHATE, EDTA AND THALLIUM (1 MM) | 3.1.3.11 |
| 1NV5 | FRUCTOSE-1,6-BISPHOSPHATASE COMPLEX WITH MAGNESIUM, FRUCTOSE-6-PHOSPHATE, PHOSPHATE, EDTA AND THALLIUM (5 MM) | 3.1.3.11 |
| 1NV6 | FRUCTOSE-1,6-BISPHOSPHATASE COMPLEX WITH MAGNESIUM, FRUCTOSE-6-PHOSPHATE, PHOSPHATE, EDTA AND THALLIUM (20 MM) | 3.1.3.11 |
| 1NV7 | FRUCTOSE-1,6-BISPHOSPHATASE COMPLEX WITH AMP, MAGNESIUM, FRUCTOSE-6-PHOSPHATE, PHOSPHATE AND THALLIUM (20 MM) | 3.1.3.11 |
| 1NVU | STRUCTURAL EVIDENCE FOR FEEDBACK ACTIVATION BY RASGTP OF THE RAS-SPECIFIC NUCLEOTIDE EXCHANGE FACTOR SOS | 3.6.5.2 |
| 1NVV | STRUCTURAL EVIDENCE FOR FEEDBACK ACTIVATION BY RASGTP OF THE RAS-SPECIFIC NUCLEOTIDE EXCHANGE FACTOR SOS | 3.6.5.2 |
| 1NVW | STRUCTURAL EVIDENCE FOR FEEDBACK ACTIVATION BY RASGTP OF THE RAS-SPECIFIC NUCLEOTIDE EXCHANGE FACTOR SOS | 3.6.5.2 |
| 1NVX | STRUCTURAL EVIDENCE FOR FEEDBACK ACTIVATION BY RASGTP OF THE RAS-SPECIFIC NUCLEOTIDE EXCHANGE FACTOR SOS | 3.6.5.2 |
| 1NWE | PTP1B R47C MODIFIED AT C47 WITH N-[4-(2-{2-[3-(2-BROMO-ACETYLAMINO)-PROPIONYLAMINO]-3-HYDROXY-PROPIONYLAMINO}-ETHYL)-PHENYL]-OXALAMIC ACID | 3.1.3.48 |
| 1NWL | CRYSTAL STRUCTURE OF THE PTP1B COMPLEXED WITH SP7343-SP7964, A PTYR MIMETIC | 3.1.3.48 |
| 1NWW | LIMONENE-1,2-EPOXIDE HYDROLASE | 3.3.2.8 |
| 1NX9 | ACETOBACTER TURBIDANS ALPHA-AMINO ACID ESTER HYDROLASE S205A MUTANT COMPLEXED WITH AMPICILLIN | 3.1.1.43 |
| 1NXC | STRUCTURE OF MOUSE GOLGI ALPHA-1,2-MANNOSIDASE IA REVEALS THE MOLECULAR BASIS FOR SUBSTRATE SPECIFICITY AMONG CLASS I ENZYMES (FAMILY 47 GLYCOSIDASES) | 3.2.1.113 |
| 1NXY | CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN M182T MUTANT OF TEM-1 AND A BORONIC ACID INHIBITOR (SM2) | 3.5.2.6 |
| 1NY0 | CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN M182T MUTANT OF TEM-1 AND A BORONIC ACID INHIBITOR (NBF) | 3.5.2.6 |
| 1NY1 | CRYSTAL STRUCTURE OF B. SUBTILIS POLYSACCHARIDE DEACETYLASE NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET SR127. | 3.5.1 |
| 1NY2 | HUMAN ALPHA THROMBIN INHIBITED BY RPPGF AND HIRUGEN | 3.4.21.5 |
| 1NYM | CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN M182T MUTANT OF TEM-1 AND A BORONIC ACID INHIBITOR (CXB) | 3.5.2.6 |
| 1NYY | CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN M182T MUTANT OF TEM-1 AND A BORONIC ACID INHIBITOR (105) | 3.5.2.6 |
| 1NZ0 | RNASE P PROTEIN FROM THERMOTOGA MARITIMA | 3.1.26.5 |
| 1NZ6 | CRYSTAL STRUCTURE OF AUXILIN J-DOMAIN | 3.1.3.48 |
| 1NZ7 | POTENT, SELECTIVE INHIBITORS OF PROTEIN TYROSINE PHOSPHATASE 1B USING A SECOND PHOSPHOTYROSINE BINDING SITE, COMPLEXED WITH COMPOUND 19. | 3.1.3.48 |
| 1NZI | CRYSTAL STRUCTURE OF THE CUB1-EGF INTERACTION DOMAIN OF COMPLEMENT PROTEASE C1S | 3.4.21.42 |
| 1NZO | THE CRYSTAL STRUCTURE OF WILD TYPE PENICILLIN-BINDING PROTEIN 5 FROM E. COLI | 3.4.16.4 3.5.2.6 |
| 1NZU | WILD-TYPE PENICILLIN-BINDING PROTEIN 5 FROM E. COLI MODIFIED BY BETA-MERCAPTOETHANOL | 3.4.16.4 3.5.2.6 |
| 1NZY | 4-CHLOROBENZOYL COENZYME A DEHALOGENASE FROM PSEUDOMONAS SP. STRAIN CBS-3 | 3.8.1.6 3.8.1.7 |
| 1O07 | CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN Q120L/Y150E MUTANT OF AMPC AND A BETA-LACTAM INHIBITOR (MXG) | 3.5.2.6 |
| 1O0E | 1.9 ANGSTROM CRYSTAL STRUCTURE OF A PLANT CYSTEINE PROTEASE ERVATAMIN C | 3.4.22 |
| 1O0F | RNASE A IN COMPLEX WITH 3',5'-ADP | 3.1.27.5 4.6.1.18 |
| 1O0H | RIBONUCLEASE A IN COMPLEX WITH 5'-ADP | 3.1.27.5 4.6.1.18 |
| 1O0M | RIBONUCLEASE A IN COMPLEX WITH URIDINE-2'-PHOSPHATE | 3.1.27.5 4.6.1.18 |
| 1O0N | RIBONUCLEASE A IN COMPLEX WITH URIDINE-3'-PHOSPHATE | 3.1.27.5 4.6.1.18 |
| 1O0O | RIBONUCLEASE A IN COMPLEX WITH ADENOSINE-2',5'-DIPHOSPHATE | 3.1.27.5 4.6.1.18 |
| 1O0Q | CRYSTAL STRUCTURE OF A COLD ADAPTED ALKALINE PROTEASE FROM PSEUDOMONAS TAC II 18, CO-CRYSTALLIZED WITH 1 MM EDTA | 3.4.24.40 |
| 1O0T | CRYSTAL STRUCTURE OF A COLD ADAPTED ALKALINE PROTEASE FROM PSEUDOMONAS TAC II 18, CO-CRYSTALLIZED WITH 5 MM EDTA (5 DAYS) | 3.4.24.40 |
| 1O0W | CRYSTAL STRUCTURE OF RIBONUCLEASE III (TM1102) FROM THERMOTOGA MARITIMA AT 2.0 A RESOLUTION | 3.1.26.3 |
| 1O0X | CRYSTAL STRUCTURE OF METHIONINE AMINOPEPTIDASE (TM1478) FROM THERMOTOGA MARITIMA AT 1.90 A RESOLUTION | 3.4.11.18 |
| 1O12 | CRYSTAL STRUCTURE OF N-ACETYLGLUCOSAMINE-6-PHOSPHATE DEACETYLASE (TM0814) FROM THERMOTOGA MARITIMA AT 2.5 A RESOLUTION | 3.5.1.25 |
| 1O1W | SOLUTION STRUCTURE OF THE RNASE H DOMAIN OF THE HIV-1 REVERSE TRANSCRIPTASE IN THE PRESENCE OF MAGNESIUM | 3.1.26.4 3.4.23.16 2.7.7.49 2.7.7.7 3.1.26.13 3.1.13.2 2.7.7 3.1 |
| 1O1Z | CRYSTAL STRUCTURE OF GLYCEROPHOSPHODIESTER PHOSPHODIESTERASE (GDPD) (TM1621) FROM THERMOTOGA MARITIMA AT 1.60 A RESOLUTION | 3.1.4.46 |
| 1O2E | STRUCTURE OF THE TRIPLE MUTANT (K53,56,120M) + ANISIC ACID COMPLEX OF PHOSPHOLIPASE A2 | 3.1.1.4 |
| 1O2G | ELABORATE MANIFOLD OF SHORT HYDROGEN BOND ARRAYS MEDIATING BINDING OF ACTIVE SITE-DIRECTED SERINE PROTEASE INHIBITORS | 3.4.21.5 |
| 1O2H | ELABORATE MANIFOLD OF SHORT HYDROGEN BOND ARRAYS MEDIATING BINDING OF ACTIVE SITE-DIRECTED SERINE PROTEASE INHIBITORS | 3.4.21.4 |
| 1O2I | ELABORATE MANIFOLD OF SHORT HYDROGEN BOND ARRAYS MEDIATING BINDING OF ACTIVE SITE-DIRECTED SERINE PROTEASE INHIBITORS | 3.4.21.4 |
| 1O2J | ELABORATE MANIFOLD OF SHORT HYDROGEN BOND ARRAYS MEDIATING BINDING OF ACTIVE SITE-DIRECTED SERINE PROTEASE INHIBITORS | 3.4.21.4 |
| 1O2K | ELABORATE MANIFOLD OF SHORT HYDROGEN BOND ARRAYS MEDIATING BINDING OF ACTIVE SITE-DIRECTED SERINE PROTEASE INHIBITORS | 3.4.21.4 |
| 1O2L | ELABORATE MANIFOLD OF SHORT HYDROGEN BOND ARRAYS MEDIATING BINDING OF ACTIVE SITE-DIRECTED SERINE PROTEASE INHIBITORS | 3.4.21.4 |
| 1O2M | ELABORATE MANIFOLD OF SHORT HYDROGEN BOND ARRAYS MEDIATING BINDING OF ACTIVE SITE-DIRECTED SERINE PROTEASE INHIBITORS | 3.4.21.4 |
| 1O2N | ELABORATE MANIFOLD OF SHORT HYDROGEN BOND ARRAYS MEDIATING BINDING OF ACTIVE SITE-DIRECTED SERINE PROTEASE INHIBITORS | 3.4.21.4 |
| 1O2O | ELABORATE MANIFOLD OF SHORT HYDROGEN BOND ARRAYS MEDIATING BINDING OF ACTIVE SITE-DIRECTED SERINE PROTEASE INHIBITORS | 3.4.21.4 |
| 1O2P | ELABORATE MANIFOLD OF SHORT HYDROGEN BOND ARRAYS MEDIATING BINDING OF ACTIVE SITE-DIRECTED SERINE PROTEASE INHIBITORS | 3.4.21.4 |
| 1O2Q | ELABORATE MANIFOLD OF SHORT HYDROGEN BOND ARRAYS MEDIATING BINDING OF ACTIVE SITE-DIRECTED SERINE PROTEASE INHIBITORS | 3.4.21.4 |
| 1O2R | ELABORATE MANIFOLD OF SHORT HYDROGEN BOND ARRAYS MEDIATING BINDING OF ACTIVE SITE-DIRECTED SERINE PROTEASE INHIBITORS | 3.4.21.4 |
| 1O2S | ELABORATE MANIFOLD OF SHORT HYDROGEN BOND ARRAYS MEDIATING BINDING OF ACTIVE SITE-DIRECTED SERINE PROTEASE INHIBITORS | 3.4.21.4 |
| 1O2T | ELABORATE MANIFOLD OF SHORT HYDROGEN BOND ARRAYS MEDIATING BINDING OF ACTIVE SITE-DIRECTED SERINE PROTEASE INHIBITORS | 3.4.21.4 |
