Structural features of residue 113 in chain A

*********************************
Electrostatic Interactions:
GLU A 106 OE1	LYS A 113 NZ	-1.370	INTRA-CHAIN
GLU A 106 OE2	LYS A 113 NZ	-1.688	INTRA-CHAIN
GLU A 108 OE1	LYS A 113 NZ	-1.252	INTRA-CHAIN
GLU A 108 OE2	LYS A 113 NZ	-1.503	INTRA-CHAIN
LYS A 113 NZ	LYS B 88 NZ	0.467	INTER-CHAIN
LYS A 113 NZ	GLU B 92 OE2	-1.585	INTER-CHAIN
LYS A 113 NZ	GLU B 93 OE2	-1.434	INTER-CHAIN
LYS A 113 NZ	GLU A 106 OE2	-1.688	INTRA-CHAIN
LYS A 113 NZ	GLU A 108 OE2	-1.503	INTRA-CHAIN
LYS B 88 NZ	LYS A 113 NZ	0.467	INTER-CHAIN
GLU B 92 OE1	LYS A 113 NZ	-1.698	INTER-CHAIN
GLU B 92 OE2	LYS A 113 NZ	-1.585	INTER-CHAIN
GLU B 93 OE1	LYS A 113 NZ	-1.335	INTER-CHAIN
GLU B 93 OE2	LYS A 113 NZ	-1.434	INTER-CHAIN

*********************************
Protrusion Index:
LYS A 113 N	0.29
LYS A 113 CA	0.32
LYS A 113 C	0.13
LYS A 113 O	0.10
LYS A 113 CB	0.47
LYS A 113 CG	0.57
LYS A 113 CD	0.74
LYS A 113 CE	1.02
LYS A 113 NZ	1.51

*********************************
Salt bridges:
ARG A 112	LYS A 113	2.676	INTRA-CHAIN

*********************************
Van der Waal's Interactions:
THR A 109 CG2 864	LYS A 113 NZ 899	-0.011	INTRA-CHAIN