Structural features of residue 101 in chain B

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Electrostatic Interactions:
GLU A 8 OE1	LYS B 101 NZ	-5.444	INTER-CHAIN
GLU A 8 OE2	LYS B 101 NZ	-3.958	INTER-CHAIN
GLU A 10 OE1	LYS B 101 NZ	-2.333	INTER-CHAIN
GLU A 10 OE2	LYS B 101 NZ	-3.183	INTER-CHAIN
GLU A 11 OE1	LYS B 101 NZ	-1.064	INTER-CHAIN
GLU A 11 OE2	LYS B 101 NZ	-1.120	INTER-CHAIN
GLU A 84 OE1	LYS B 101 NZ	-4.699	INTER-CHAIN
GLU A 84 OE2	LYS B 101 NZ	-3.806	INTER-CHAIN
LYS A 87 NZ	LYS B 101 NZ	0.674	INTER-CHAIN
GLU A 92 OE2	LYS B 101 NZ	-1.114	INTER-CHAIN
LYS B 101 NZ	GLU A 8 OE2	-3.958	INTER-CHAIN
LYS B 101 NZ	GLU A 10 OE2	-3.183	INTER-CHAIN
LYS B 101 NZ	GLU A 11 OE2	-1.120	INTER-CHAIN
LYS B 101 NZ	GLU A 84 OE2	-3.806	INTER-CHAIN
LYS B 101 NZ	LYS A 87 NZ	0.674	INTER-CHAIN
LYS B 101 NZ	GLU A 92 OE2	-1.114	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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|        K|      101|      B|         T|       79|      A|
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Protrusion Index:
LYS B 101 N	0.47
LYS B 101 CA	0.52
LYS B 101 C	0.80
LYS B 101 O	0.84
LYS B 101 CB	0.28
LYS B 101 CG	0.24
LYS B 101 CD	0.18
LYS B 101 CE	0.12
LYS B 101 NZ	0.11

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Salt bridges:
GLU A 8	LYS B 101	2.909	INTER-CHAIN

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Van der Waal's Interactions:
GLU A 8 OE2 57	LYS B 101 NZ 749	-0.203	INTER-CHAIN
ASP A 9 OD2 65	LYS B 101 NZ 749	-0.025	INTER-CHAIN
GLU A 10 OE2 74	LYS B 101 NZ 749	-0.056	INTER-CHAIN
ASP A 52 OD2 385	LYS B 101 NZ 749	-1.454	INTER-CHAIN
ALA A 80 CB 587	LYS B 101 NZ 749	-0.039	INTER-CHAIN
GLU A 84 OE2 621	LYS B 101 NZ 749	-0.161	INTER-CHAIN