Structural features of residue 127 in chain B

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Electrostatic Interactions:
HIS A 7 ND1	ARG B 127 NH1	4.866	INTER-CHAIN
HIS A 7 NE2	ARG B 127 NH1	5.406	INTER-CHAIN
HIS B 69 ND1	ARG B 127 NH1	3.584	INTRA-CHAIN
HIS B 69 NE2	ARG B 127 NH1	4.342	INTRA-CHAIN
ARG B 94 NH1	ARG B 127 NH1	4.148	INTRA-CHAIN
ARG B 94 NH1	ARG B 127 NH2	4.051	INTRA-CHAIN
ARG B 94 NH2	ARG B 127 NH1	3.737	INTRA-CHAIN
ARG B 94 NH2	ARG B 127 NH2	3.577	INTRA-CHAIN
HIS B 120 ND1	ARG B 127 NH1	4.481	INTRA-CHAIN
HIS B 120 NE2	ARG B 127 NH1	5.136	INTRA-CHAIN
ARG B 127 NH1	HIS A 7 NE2	5.406	INTER-CHAIN
ARG B 127 NH1	HIS B 69 NE2	4.342	INTRA-CHAIN
ARG B 127 NH1	ARG B 94 NH1	4.148	INTRA-CHAIN
ARG B 127 NH1	ARG B 94 NH2	3.737	INTRA-CHAIN
ARG B 127 NH1	HIS B 120 NE2	5.136	INTRA-CHAIN
ARG B 127 NH2	HIS A 7 NE2	3.934	INTER-CHAIN
ARG B 127 NH2	HIS B 69 NE2	3.514	INTRA-CHAIN
ARG B 127 NH2	ARG B 94 NH1	4.051	INTRA-CHAIN
ARG B 127 NH2	ARG B 94 NH2	3.577	INTRA-CHAIN
ARG B 127 NH2	HIS B 120 NE2	3.977	INTRA-CHAIN

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Protrusion Index:
ARG B 127 N	1.13
ARG B 127 CA	0.98
ARG B 127 C	1.06
ARG B 127 O	1.15
ARG B 127 CB	0.74
ARG B 127 CG	0.67
ARG B 127 CD	0.53
ARG B 127 NE	0.63
ARG B 127 CZ	0.62
ARG B 127 NH1	0.42
ARG B 127 NH2	0.81

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Salt bridges:
GLU B 126	ARG B 127	2.261	INTRA-CHAIN

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Van der Waal's Interactions:
TYR A 32 OH 266	ARG B 127 NH2 1938	-0.013	INTER-CHAIN
GLU A 44 OE2 357	ARG B 127 NH2 1938	-0.216	INTER-CHAIN
PHE A 46 CZ 377	ARG B 127 NH2 1938	-0.176	INTER-CHAIN