Structural features of residue 145 in chain A

*********************************
Electrostatic Interactions:
ASP A 136 OD1	HIS A 145 ND1	-1.398	INTRA-CHAIN
HIS A 145 ND1	HIS D 42 ND1	0.894	INTER-CHAIN
HIS A 145 ND1	HIS D 42 NE2	1.780	INTER-CHAIN
HIS A 145 ND1	ASP A 136 OD1	-1.398	INTRA-CHAIN
HIS A 145 ND1	ASP A 150 OD1	-1.765	INTRA-CHAIN
HIS A 145 ND1	ASP A 163 OD1	-1.407	INTRA-CHAIN
HIS A 145 NE2	HIS D 42 ND1	0.996	INTER-CHAIN
HIS A 145 NE2	HIS D 42 NE2	1.932	INTER-CHAIN
HIS A 145 NE2	ASP A 136 OD1	-1.356	INTRA-CHAIN
HIS A 145 NE2	ASP A 150 OD1	-1.644	INTRA-CHAIN
ASP A 150 OD1	HIS A 145 ND1	-1.765	INTRA-CHAIN
ASP A 150 OD2	HIS A 145 ND1	-1.757	INTRA-CHAIN
ARG A 156 NH2	HIS A 145 NE2	2.135	INTRA-CHAIN
ASP A 163 OD1	HIS A 145 ND1	-1.407	INTRA-CHAIN
ASP A 163 OD2	HIS A 145 ND1	-1.611	INTRA-CHAIN
HIS D 42 ND1	HIS A 145 ND1	0.894	INTER-CHAIN
HIS D 42 ND1	HIS A 145 NE2	2.241	INTER-CHAIN
HIS D 42 NE2	HIS A 145 ND1	0.791	INTER-CHAIN
HIS D 42 NE2	HIS A 145 NE2	1.932	INTER-CHAIN

*********************************
Protrusion Index:
HIS A 145 N	0.34
HIS A 145 CA	0.37
HIS A 145 C	0.31
HIS A 145 O	0.30
HIS A 145 CB	0.50
HIS A 145 CG	0.58
HIS A 145 ND1	0.67
HIS A 145 CD2	0.52
HIS A 145 CE1	0.65
HIS A 145 NE2	0.53

*********************************
Salt bridges:
GLU D 46	HIS A 145	2.790	INTER-CHAIN

*********************************
Van der Waal's Interactions:
ASN A 144 ND2 1129	HIS A 145 NE2 1139	-0.018	INTRA-CHAIN
PHE D 43 CZ 305	HIS A 145 NE2 1139	-0.013	INTER-CHAIN
GLU D 46 OE2 333	HIS A 145 NE2 1139	-1.580	INTER-CHAIN