Structural features of residue 145 in chain A

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Electrostatic Interactions:
ASP A 136 OD1	HIS A 145 ND1	-1.381	INTRA-CHAIN
HIS A 145 ND1	HIS D 42 ND1	0.895	INTER-CHAIN
HIS A 145 ND1	HIS D 42 NE2	1.776	INTER-CHAIN
HIS A 145 ND1	ASP A 136 OD1	-1.381	INTRA-CHAIN
HIS A 145 ND1	ASP A 150 OD1	-1.781	INTRA-CHAIN
HIS A 145 ND1	ASP A 163 OD1	-1.428	INTRA-CHAIN
HIS A 145 NE2	HIS D 42 ND1	1.003	INTER-CHAIN
HIS A 145 NE2	HIS D 42 NE2	1.943	INTER-CHAIN
HIS A 145 NE2	ASP A 136 OD1	-1.363	INTRA-CHAIN
HIS A 145 NE2	ASP A 150 OD1	-1.635	INTRA-CHAIN
HIS A 145 NE2	ARG A 156 NH1	2.133	INTRA-CHAIN
ASP A 150 OD1	HIS A 145 ND1	-1.781	INTRA-CHAIN
ASP A 150 OD2	HIS A 145 ND1	-1.746	INTRA-CHAIN
ARG A 156 NH1	HIS A 145 NE2	2.133	INTRA-CHAIN
ASP A 163 OD1	HIS A 145 ND1	-1.428	INTRA-CHAIN
ASP A 163 OD2	HIS A 145 ND1	-1.631	INTRA-CHAIN
HIS D 42 ND1	HIS A 145 ND1	0.895	INTER-CHAIN
HIS D 42 ND1	HIS A 145 NE2	2.256	INTER-CHAIN
HIS D 42 NE2	HIS A 145 ND1	0.789	INTER-CHAIN
HIS D 42 NE2	HIS A 145 NE2	1.943	INTER-CHAIN

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Protrusion Index:
HIS A 145 N	0.42
HIS A 145 CA	0.41
HIS A 145 C	0.30
HIS A 145 O	0.26
HIS A 145 CB	0.53
HIS A 145 CG	0.60
HIS A 145 ND1	0.67
HIS A 145 CD2	0.53
HIS A 145 CE1	0.71
HIS A 145 NE2	0.53

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Salt bridges:
GLU D 46	HIS A 145	2.661	INTER-CHAIN

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Van der Waal's Interactions:
ASN A 144 ND2 1118	HIS A 145 NE2 1128	-0.009	INTRA-CHAIN
PHE D 43 CZ 305	HIS A 145 NE2 1128	-0.017	INTER-CHAIN
GLU D 46 OE2 333	HIS A 145 NE2 1128	-0.358	INTER-CHAIN