Structural features of residue 126 in chain A

********************************* Electrostatic Interactions: GLU A 91 OE1 LYS A 126 NZ -1.225 INTRA-CHAIN GLU A 91 OE2 LYS A 126 NZ -1.170 INTRA-CHAIN LYS A 101 NZ LYS A 126 NZ 0.646 INTRA-CHAIN LYS A 126 NZ GLU A 91 OE2 -1.170 INTRA-CHAIN LYS A 126 NZ LYS A 101 NZ 0.646 INTRA-CHAIN LYS A 126 NZ LYS B 110 NZ 0.563 INTER-CHAIN LYS A 126 NZ GLU B 113 OE2 -1.296 INTER-CHAIN LYS A 126 NZ LYS A 162 NZ 0.497 INTRA-CHAIN LYS A 162 NZ LYS A 126 NZ 0.497 INTRA-CHAIN LYS B 110 NZ LYS A 126 NZ 0.563 INTER-CHAIN GLU B 113 OE1 LYS A 126 NZ -1.397 INTER-CHAIN GLU B 113 OE2 LYS A 126 NZ -1.296 INTER-CHAIN ********************************* Hydrogen bonds: ---------------------------------------------------------- |Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2| ---------------------------------------------------------- | K| 126| A| G| 140| B| ---------------------------------------------------------- ********************************* Protrusion Index: LYS A 126 N 0.28 LYS A 126 CA 0.38 LYS A 126 C 0.54 LYS A 126 O 0.74 LYS A 126 CB 0.32 LYS A 126 CG 0.21 LYS A 126 CD 0.34 LYS A 126 CE 0.51 LYS A 126 NZ 0.62 ********************************* Salt bridges: LYS A 126 ASP B 143 2.868 INTER-CHAIN ********************************* Van der Waal's Interactions: THR A 93 CG2 536 LYS A 126 NZ 785 -0.013 INTRA-CHAIN ALA A 125 CB 776 LYS A 126 NZ 785 -0.011 INTRA-CHAIN LYS A 126 NZ 785 ASP B 143 OD2 3359 -0.107 INTER-CHAIN