Structural features of residue 80 in chain A

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Electrostatic Interactions:
ASP A 80 OD1	ASP C 123 OD1	3.421	INTER-CHAIN
ASP A 80 OD1	ASP C 123 OD2	3.724	INTER-CHAIN
ASP A 80 OD1	ASP D 149 OD1	5.921	INTER-CHAIN
ASP A 80 OD1	ASP D 149 OD2	5.287	INTER-CHAIN
ASP A 80 OD2	ASP C 123 OD1	4.171	INTER-CHAIN
ASP A 80 OD2	ASP C 123 OD2	4.579	INTER-CHAIN
ASP A 80 OD2	ASP D 149 OD1	5.026	INTER-CHAIN
ASP A 80 OD2	ASP D 149 OD2	4.866	INTER-CHAIN
HIS A 140 NE2	ASP A 80 OD1	-1.433	INTRA-CHAIN
GLU C 96 OE2	ASP A 80 OD2	2.852	INTER-CHAIN
ASP C 123 OD1	ASP A 80 OD1	3.421	INTER-CHAIN
ASP C 123 OD1	ASP A 80 OD2	4.171	INTER-CHAIN
ASP C 123 OD2	ASP A 80 OD1	3.724	INTER-CHAIN
ASP C 123 OD2	ASP A 80 OD2	4.579	INTER-CHAIN
ASP D 149 OD1	ASP A 80 OD1	5.921	INTER-CHAIN
ASP D 149 OD1	ASP A 80 OD2	5.026	INTER-CHAIN
ASP D 149 OD2	ASP A 80 OD1	5.287	INTER-CHAIN
ASP D 149 OD2	ASP A 80 OD2	4.866	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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|        G|      148|      D|         D|       80|      A|
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Protrusion Index:
ASP A 80 N	0.27
ASP A 80 CA	0.29
ASP A 80 C	0.22
ASP A 80 O	0.23
ASP A 80 CB	0.40
ASP A 80 CG	0.47
ASP A 80 OD1	0.41
ASP A 80 OD2	0.68

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Salt bridges:
ASP A 80	ARG A 84	3.075	INTRA-CHAIN

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Van der Waal's Interactions:
ASP A 80 OD2 574	LYS C 127 NZ 8687	-0.039	INTER-CHAIN
ASP A 80 OD2 574	GLY D 148 O 2726	-0.030	INTER-CHAIN
ASP A 80 OD2 574	LYS D 498 NZ 5386	-0.010	INTER-CHAIN