Structural features of residue 316 in chain A
********************************* Electrostatic Interactions: ARG A 316 NH1 HIS B 319 NE2 2.463 INTER-CHAIN ARG A 316 NH1 HIS A 319 NE2 2.331 INTRA-CHAIN ARG A 316 NH1 HIS A 349 NE2 5.414 INTRA-CHAIN ARG A 316 NH1 HIS B 349 NE2 2.992 INTER-CHAIN ARG A 316 NH2 HIS B 319 NE2 2.571 INTER-CHAIN ARG A 316 NH2 HIS A 319 NE2 2.146 INTRA-CHAIN ARG A 316 NH2 HIS A 349 NE2 3.886 INTRA-CHAIN ARG A 316 NH2 HIS B 349 NE2 2.655 INTER-CHAIN HIS A 319 ND1 ARG A 316 NH1 2.158 INTRA-CHAIN HIS A 319 NE2 ARG A 316 NH1 2.331 INTRA-CHAIN HIS A 349 ND1 ARG A 316 NH1 4.393 INTRA-CHAIN HIS A 349 NE2 ARG A 316 NH1 5.414 INTRA-CHAIN HIS B 319 ND1 ARG A 316 NH1 2.601 INTER-CHAIN HIS B 319 NE2 ARG A 316 NH1 2.463 INTER-CHAIN HIS B 349 ND1 ARG A 316 NH1 3.009 INTER-CHAIN HIS B 349 NE2 ARG A 316 NH1 2.992 INTER-CHAIN ********************************* Hydrogen bonds: ---------------------------------------------------------- |Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2| ---------------------------------------------------------- | R| 316| A| C| 362| B| ---------------------------------------------------------- ********************************* Protrusion Index: ARG A 316 N 0.71 ARG A 316 CA 0.67 ARG A 316 C 0.52 ARG A 316 O 0.45 ARG A 316 CB 0.39 ARG A 316 CG 0.34 ARG A 316 CD 0.20 ARG A 316 NE 0.36 ARG A 316 CZ 0.37 ARG A 316 NH1 0.28 ARG A 316 NH2 0.42 ********************************* Salt bridges: ARG A 316 GLU B 318 2.801 INTER-CHAIN ********************************* Van der Waal's Interactions: GLU A 314 OE2 125 ARG A 316 NH2 144 -0.007 INTRA-CHAIN ARG A 316 NH2 144 GLU A 318 OE2 161 -0.009 INTRA-CHAIN ARG A 316 NH2 144 CYS B 320 SG 177 -0.872 INTER-CHAIN ARG A 316 NH2 144 GLU B 322 OE2 194 -0.594 INTER-CHAIN ARG A 316 NH2 144 LYS A 346 NZ 391 -0.008 INTRA-CHAIN ARG A 316 NH2 144 TYR B 353 OH 457 -0.022 INTER-CHAIN ARG A 316 NH2 144 GLY B 361 O 515 -0.013 INTER-CHAIN ARG A 316 NH2 144 LEU B 364 CD2 537 -0.013 INTER-CHAIN ARG A 316 NH2 144 ASN A 366 ND2 556 -0.016 INTRA-CHAIN