Structural features of residue 138 in chain B

*********************************
Electrostatic Interactions:
LYS A 131 NZ	LYS B 138 NZ	0.450	INTER-CHAIN
GLU A 141 OE1	LYS B 138 NZ	-1.787	INTER-CHAIN
GLU A 141 OE2	LYS B 138 NZ	-1.483	INTER-CHAIN
LYS A 142 NZ	LYS B 138 NZ	0.438	INTER-CHAIN
GLU A 375 OE1	LYS B 138 NZ	-1.126	INTER-CHAIN
LYS B 138 NZ	LYS A 131 NZ	0.450	INTER-CHAIN
LYS B 138 NZ	GLU B 141 OE2	-1.350	INTRA-CHAIN
LYS B 138 NZ	GLU A 141 OE2	-1.483	INTER-CHAIN
LYS B 138 NZ	LYS B 142 NZ	0.553	INTRA-CHAIN
LYS B 138 NZ	LYS A 142 NZ	0.438	INTER-CHAIN
GLU B 141 OE1	LYS B 138 NZ	-1.355	INTRA-CHAIN
GLU B 141 OE2	LYS B 138 NZ	-1.350	INTRA-CHAIN
LYS B 142 NZ	LYS B 138 NZ	0.553	INTRA-CHAIN

*********************************
Hydrogen bonds:

----------------------------------------------------------
|Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2|
----------------------------------------------------------
|        K|      138|      B|         S|      135|      A|
----------------------------------------------------------
|        K|      138|      B|         I|      137|      A|
----------------------------------------------------------

*********************************
Protrusion Index:
LYS B 138 N	0.45
LYS B 138 CA	0.75
LYS B 138 C	0.71
LYS B 138 O	1.02
LYS B 138 CB	1.02
LYS B 138 CG	1.04
LYS B 138 CD	0.95
LYS B 138 CE	1.17
LYS B 138 NZ	0.72

*********************************
Salt bridges:
LYS B 138	HIS B 139	2.782	INTRA-CHAIN

*********************************
Van der Waal's Interactions:
TYR A 129 OH 1014	LYS B 138 NZ 4303	-0.010	INTER-CHAIN
PRO A 136 CD 1062	LYS B 138 NZ 4303	-0.021	INTER-CHAIN
LYS B 138 NZ 4303	HIS B 139 NE2 4313	-0.008	INTRA-CHAIN
LYS B 138 NZ 4303	PRO A 140 CD 1096	-0.029	INTER-CHAIN