Structural features of residue 145 in chain B

*********************************
Electrostatic Interactions:
HIS A 147 ND1	ARG B 145 NH1	2.324	INTER-CHAIN
HIS A 147 NE2	ARG B 145 NH1	2.485	INTER-CHAIN
ARG A 200 NH1	ARG B 145 NH1	3.749	INTER-CHAIN
ARG A 200 NH1	ARG B 145 NH2	4.037	INTER-CHAIN
ARG A 200 NH2	ARG B 145 NH1	3.460	INTER-CHAIN
ARG A 200 NH2	ARG B 145 NH2	3.819	INTER-CHAIN
HIS B 114 ND1	ARG B 145 NH1	2.808	INTRA-CHAIN
HIS B 114 NE2	ARG B 145 NH1	2.642	INTRA-CHAIN
ARG B 145 NH1	HIS B 114 NE2	2.642	INTRA-CHAIN
ARG B 145 NH1	HIS A 147 NE2	2.485	INTER-CHAIN
ARG B 145 NH1	HIS B 147 NE2	2.461	INTRA-CHAIN
ARG B 145 NH1	ARG A 200 NH1	3.749	INTER-CHAIN
ARG B 145 NH1	ARG A 200 NH2	3.460	INTER-CHAIN
ARG B 145 NH2	HIS B 114 NE2	2.350	INTRA-CHAIN
ARG B 145 NH2	HIS A 147 NE2	2.978	INTER-CHAIN
ARG B 145 NH2	HIS B 147 NE2	2.670	INTRA-CHAIN
ARG B 145 NH2	ARG A 200 NH1	4.037	INTER-CHAIN
ARG B 145 NH2	ARG A 200 NH2	3.819	INTER-CHAIN
HIS B 147 ND1	ARG B 145 NH1	2.379	INTRA-CHAIN
HIS B 147 NE2	ARG B 145 NH1	2.461	INTRA-CHAIN

*********************************
Protrusion Index:
ARG B 145 N	0.14
ARG B 145 CA	0.16
ARG B 145 C	0.15
ARG B 145 O	0.12
ARG B 145 CB	0.23
ARG B 145 CG	0.39
ARG B 145 CD	0.45
ARG B 145 NE	0.69
ARG B 145 CZ	0.71
ARG B 145 NH1	0.91
ARG B 145 NH2	0.54

*********************************
Salt bridges:
GLU A 144	ARG B 145	2.966	INTER-CHAIN

*********************************
Van der Waal's Interactions:
ASN A 141 ND2 1226	ARG B 145 NH2 1259	-1.553	INTER-CHAIN
GLU A 144 OE2 1248	ARG B 145 NH2 1259	-0.082	INTER-CHAIN
LYS B 113 NZ 1017	ARG B 145 NH2 1259	-0.083	INTRA-CHAIN
ARG B 145 NH2 1259	SER B 146 OG 1265	-0.009	INTRA-CHAIN
ARG B 145 NH2 1259	LYS B 148 NZ 1284	-0.008	INTRA-CHAIN
ARG B 145 NH2 1259	ASN B 149 ND2 1292	-0.009	INTRA-CHAIN