Structural features of residue 111 in chain B
********************************* Electrostatic Interactions: GLU A 4 OE1 LYS B 111 NZ -1.083 INTER-CHAIN LYS A 12 NZ LYS B 111 NZ 0.423 INTER-CHAIN GLU B 11 OE1 LYS B 111 NZ -2.090 INTRA-CHAIN GLU B 11 OE2 LYS B 111 NZ -1.959 INTRA-CHAIN GLU B 43 OE1 LYS B 111 NZ -1.153 INTRA-CHAIN LYS B 47 NZ LYS B 111 NZ 0.427 INTRA-CHAIN GLU B 110 OE1 LYS B 111 NZ -1.564 INTRA-CHAIN GLU B 110 OE2 LYS B 111 NZ -1.317 INTRA-CHAIN LYS B 111 NZ GLU B 11 OE2 -1.959 INTRA-CHAIN LYS B 111 NZ LYS A 12 NZ 0.423 INTER-CHAIN LYS B 111 NZ LYS B 47 NZ 0.427 INTRA-CHAIN LYS B 111 NZ GLU B 110 OE2 -1.317 INTRA-CHAIN ********************************* Protrusion Index: LYS B 111 N 0.46 LYS B 111 CA 0.45 LYS B 111 C 0.39 LYS B 111 O 0.35 LYS B 111 CB 0.67 LYS B 111 CG 0.60 LYS B 111 CD 0.49 LYS B 111 CE 0.65 LYS B 111 NZ 0.64 ********************************* Salt bridges: GLU B 110 LYS B 111 2.257 INTRA-CHAIN ********************************* Van der Waal's Interactions: PHE B 10 CZ 954 LYS B 111 NZ 1682 -0.018 INTRA-CHAIN ASP B 14 OD2 987 LYS B 111 NZ 1682 -0.039 INTRA-CHAIN ARG B 16 NH2 1006 LYS B 111 NZ 1682 -0.012 INTRA-CHAIN