Structural features of residue 60 in chain K
********************************* Hydrogen bonds: ---------------------------------------------------------- |Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2| ---------------------------------------------------------- | K| 60| B| T| 62| A| ---------------------------------------------------------- | K| 60| B| I| 38| D| ---------------------------------------------------------- | K| 60| A| T| 62| C| ---------------------------------------------------------- | K| 60| A| I| 38| E| ---------------------------------------------------------- | K| 60| C| T| 62| B| ---------------------------------------------------------- | K| 60| C| I| 38| F| ---------------------------------------------------------- | K| 60| G| T| 62| H| ---------------------------------------------------------- | K| 60| G| I| 38| K| ---------------------------------------------------------- | K| 60| H| T| 62| I| ---------------------------------------------------------- | K| 60| H| I| 38| L| ---------------------------------------------------------- | K| 60| I| T| 62| G| ---------------------------------------------------------- | K| 60| I| I| 38| J| ---------------------------------------------------------- ********************************* Protrusion Index: LYS K 60 N 0.09 LYS K 60 CA 0.10 LYS K 60 C 0.13 LYS K 60 O 0.13 LYS K 60 CB 0.06 LYS K 60 CG 0.04 LYS K 60 CD 0.07 LYS K 60 CE 0.09 LYS K 60 NZ 0.13 ********************************* Van der Waal's Interactions: ALA K 5 CB 4936 LYS K 60 NZ 5338 -0.013 INTRA-CHAIN LYS K 60 NZ 5338 ASP G 63 OD2 3393 -0.476 INTER-CHAIN LYS K 60 NZ 5338 ASP K 63 OD2 5359 -0.316 INTRA-CHAIN LYS K 60 NZ 5338 ASP H 63 OD2 3887 -0.009 INTER-CHAIN LYS K 60 NZ 5338 ASP J 63 OD2 4870 -0.017 INTER-CHAIN LYS K 60 NZ 5338 MET J 65 CG 4883 -0.064 INTER-CHAIN