Structural features of residue 123 in chain L

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Electrostatic Interactions:
LYS H 147 NZ	GLU L 123 OE2	-1.061	INTER-CHAIN
ASP H 211 OD1	GLU L 123 OE1	3.209	INTER-CHAIN
ASP H 211 OD2	GLU L 123 OE1	3.124	INTER-CHAIN
LYS H 212 NZ	GLU L 123 OE2	-4.197	INTER-CHAIN
LYS H 213 NZ	GLU L 123 OE2	-1.368	INTER-CHAIN
GLU L 123 OE1	LYS H 147 NZ	-1.165	INTER-CHAIN
GLU L 123 OE1	LYS L 183 NZ	-1.171	INTRA-CHAIN
GLU L 123 OE1	ASP H 211 OD2	3.124	INTER-CHAIN
GLU L 123 OE1	LYS H 212 NZ	-5.733	INTER-CHAIN
GLU L 123 OE1	LYS H 213 NZ	-1.256	INTER-CHAIN
GLU L 123 OE2	LYS H 147 NZ	-1.061	INTER-CHAIN
GLU L 123 OE2	LYS L 183 NZ	-1.128	INTRA-CHAIN
GLU L 123 OE2	ASP H 211 OD2	3.112	INTER-CHAIN
GLU L 123 OE2	LYS H 212 NZ	-4.197	INTER-CHAIN
GLU L 123 OE2	LYS H 213 NZ	-1.368	INTER-CHAIN
LYS L 183 NZ	GLU L 123 OE2	-1.128	INTRA-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|      212|      H|         E|      123|      L|
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Protrusion Index:
GLU L 123 N	0.91
GLU L 123 CA	1.00
GLU L 123 C	0.77
GLU L 123 O	1.02
GLU L 123 CB	0.97
GLU L 123 CG	1.02
GLU L 123 CD	0.86
GLU L 123 OE1	0.84
GLU L 123 OE2	0.83

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Salt bridges:
GLU L 123	LYS H 212	2.762	INTER-CHAIN

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Van der Waal's Interactions:
SER L 121 OG 926	GLU L 123 OE2 941	-0.033	INTRA-CHAIN
SER L 122 OG 932	GLU L 123 OE2 941	-0.042	INTRA-CHAIN
GLU L 123 OE2 941	PRO H 127 CD 2645	-0.319	INTER-CHAIN
GLU L 123 OE2 941	LYS H 212 NZ 3261	-0.288	INTER-CHAIN