Structural features of residue 39 in chain B
********************************* Electrostatic Interactions: GLU B 38 OE1 LYS B 39 NZ -1.384 INTRA-CHAIN GLU B 38 OE2 LYS B 39 NZ -1.525 INTRA-CHAIN LYS B 39 NZ GLU B 38 OE2 -1.525 INTRA-CHAIN LYS B 39 NZ GLU B 46 OE2 -1.660 INTRA-CHAIN LYS B 39 NZ LYS C 139 NZ 1.483 INTER-CHAIN LYS B 39 NZ GLU C 170 OE2 -1.339 INTER-CHAIN LYS B 39 NZ LYS C 328 NZ 0.448 INTER-CHAIN LYS B 39 NZ GLU D 383 OE2 -1.975 INTER-CHAIN LYS B 39 NZ GLU D 392 OE2 -1.545 INTER-CHAIN GLU B 46 OE1 LYS B 39 NZ -1.390 INTRA-CHAIN GLU B 46 OE2 LYS B 39 NZ -1.660 INTRA-CHAIN LYS C 139 NZ LYS B 39 NZ 1.483 INTER-CHAIN GLU C 170 OE1 LYS B 39 NZ -1.151 INTER-CHAIN GLU C 170 OE2 LYS B 39 NZ -1.339 INTER-CHAIN LYS C 328 NZ LYS B 39 NZ 0.448 INTER-CHAIN GLU D 383 OE1 LYS B 39 NZ -2.680 INTER-CHAIN GLU D 383 OE2 LYS B 39 NZ -1.975 INTER-CHAIN GLU D 392 OE1 LYS B 39 NZ -1.936 INTER-CHAIN GLU D 392 OE2 LYS B 39 NZ -1.545 INTER-CHAIN ********************************* Hydrogen bonds: ---------------------------------------------------------- |Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2| ---------------------------------------------------------- | K| 39| B| D| 142| C| ---------------------------------------------------------- ********************************* Protrusion Index: LYS B 39 N 0.11 LYS B 39 CA 0.02 LYS B 39 C 0.01 LYS B 39 O -0.01 LYS B 39 CB 0.02 LYS B 39 CG -0.05 LYS B 39 CD -0.09 LYS B 39 CE -0.09 LYS B 39 NZ -0.08 ********************************* Salt bridges: GLU B 38 LYS B 39 2.262 INTRA-CHAIN ********************************* Van der Waal's Interactions: LEU B 6 CD2 26 LYS B 39 NZ 271 -0.023 INTRA-CHAIN ASN B 17 ND2 96 LYS B 39 NZ 271 -0.489 INTRA-CHAIN TRP B 35 CH2 234 LYS B 39 NZ 271 -0.022 INTRA-CHAIN LYS B 39 NZ 271 LEU B 40 CD2 279 -0.013 INTRA-CHAIN LYS B 39 NZ 271 LEU C 138 CD2 1078 -0.079 INTER-CHAIN LYS B 39 NZ 271 LYS C 139 NZ 1087 -0.157 INTER-CHAIN LYS B 39 NZ 271 PRO C 141 CD 1105 -0.069 INTER-CHAIN LYS B 39 NZ 271 TYR D 364 OH 2962 -0.103 INTER-CHAIN