Structural features of residue 40 in chain A

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Electrostatic Interactions:
ASP A 40 OD1	HIS B 86 ND1	-2.244	INTER-CHAIN
ASP A 40 OD1	ASP B 87 OD1	2.734	INTER-CHAIN
ASP A 40 OD1	HIS B 90 ND1	-1.458	INTER-CHAIN
ASP A 40 OD1	ASP B 119 OD1	3.980	INTER-CHAIN
ASP A 40 OD1	ASP B 119 OD2	3.869	INTER-CHAIN
ASP A 40 OD2	HIS B 86 ND1	-2.301	INTER-CHAIN
ASP A 40 OD2	ASP B 87 OD1	2.837	INTER-CHAIN
ASP A 40 OD2	HIS B 90 ND1	-1.438	INTER-CHAIN
ASP A 40 OD2	ASP B 119 OD1	4.781	INTER-CHAIN
ASP A 40 OD2	ASP B 119 OD2	4.468	INTER-CHAIN
HIS B 86 ND1	ASP A 40 OD1	-2.244	INTER-CHAIN
HIS B 86 NE2	ASP A 40 OD1	-2.902	INTER-CHAIN
ASP B 87 OD1	ASP A 40 OD1	2.734	INTER-CHAIN
ASP B 87 OD1	ASP A 40 OD2	2.837	INTER-CHAIN
HIS B 90 ND1	ASP A 40 OD1	-1.458	INTER-CHAIN
HIS B 90 NE2	ASP A 40 OD1	-1.398	INTER-CHAIN
ASP B 119 OD1	ASP A 40 OD1	3.980	INTER-CHAIN
ASP B 119 OD1	ASP A 40 OD2	4.781	INTER-CHAIN
ASP B 119 OD2	ASP A 40 OD1	3.869	INTER-CHAIN
ASP B 119 OD2	ASP A 40 OD2	4.468	INTER-CHAIN

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Hydrogen bonds:

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|Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2|
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|        R|       70|      B|         D|       40|      A|
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|        K|       75|      B|         D|       40|      A|
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Protrusion Index:
ASP A 40 N	1.17
ASP A 40 CA	0.86
ASP A 40 C	0.81
ASP A 40 O	0.75
ASP A 40 CB	0.56
ASP A 40 CG	0.38
ASP A 40 OD1	0.54
ASP A 40 OD2	0.29

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Van der Waal's Interactions:
TYR A 34 OH 185	ASP A 40 OD2 229	-0.011	INTRA-CHAIN
SER A 38 OG 213	ASP A 40 OD2 229	-0.064	INTRA-CHAIN
ASP A 40 OD2 229	HIS B 86 NE2 599	-0.008	INTER-CHAIN