Structural features of residue 39 in chain H

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Electrostatic Interactions:
ARG H 39 NH1	HIS L 87 NE2	5.474	INTER-CHAIN
ARG H 39 NH1	ARG L 103 NH1	4.160	INTER-CHAIN
ARG H 39 NH1	ARG L 103 NH2	3.797	INTER-CHAIN
ARG H 39 NH1	ARG L 142 NH1	5.110	INTER-CHAIN
ARG H 39 NH1	ARG L 142 NH2	4.997	INTER-CHAIN
ARG H 39 NH2	HIS L 87 NE2	7.491	INTER-CHAIN
ARG H 39 NH2	ARG L 103 NH1	4.726	INTER-CHAIN
ARG H 39 NH2	ARG L 103 NH2	4.352	INTER-CHAIN
ARG H 39 NH2	ARG L 142 NH1	5.519	INTER-CHAIN
ARG H 39 NH2	ARG L 142 NH2	5.588	INTER-CHAIN
HIS L 87 ND1	ARG H 39 NH1	4.674	INTER-CHAIN
HIS L 87 NE2	ARG H 39 NH1	5.474	INTER-CHAIN
ARG L 103 NH1	ARG H 39 NH1	4.160	INTER-CHAIN
ARG L 103 NH1	ARG H 39 NH2	4.726	INTER-CHAIN
ARG L 103 NH2	ARG H 39 NH1	3.797	INTER-CHAIN
ARG L 103 NH2	ARG H 39 NH2	4.352	INTER-CHAIN
ARG L 142 NH1	ARG H 39 NH1	5.110	INTER-CHAIN
ARG L 142 NH1	ARG H 39 NH2	5.519	INTER-CHAIN
ARG L 142 NH2	ARG H 39 NH1	4.997	INTER-CHAIN
ARG L 142 NH2	ARG H 39 NH2	5.588	INTER-CHAIN

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Protrusion Index:
ARG H 39 N	0.11
ARG H 39 CA	0.20
ARG H 39 C	0.34
ARG H 39 O	0.31
ARG H 39 CB	0.14
ARG H 39 CG	0.24
ARG H 39 CD	0.29
ARG H 39 NE	0.23
ARG H 39 CZ	0.29
ARG H 39 NH1	0.37
ARG H 39 NH2	0.23

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Van der Waal's Interactions:
ARG H 39 NH2 1892	PRO L 40 CD 299	-0.015	INTER-CHAIN
ARG H 39 NH2 1892	GLY H 42 O 1910	-0.013	INTRA-CHAIN
ARG H 39 NH2 1892	GLY H 44 O 1918	-0.011	INTRA-CHAIN
ARG H 39 NH2 1892	LEU H 45 CD2 1926	-0.012	INTRA-CHAIN
ARG H 39 NH2 1892	THR L 85 CG2 630	-0.259	INTER-CHAIN
ARG H 39 NH2 1892	HIS L 87 NE2 652	-0.154	INTER-CHAIN
ARG H 39 NH2 1892	TYR H 91 OH 2343	-0.009	INTRA-CHAIN
GLN L 38 NE2 283	ARG H 39 NH2 1892	-0.043	INTER-CHAIN