Structural features of residue 250 in chain C

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Electrostatic Interactions:
GLU C 18 OE1	LYS C 250 NZ	-1.383	INTRA-CHAIN
GLU C 18 OE2	LYS C 250 NZ	-1.677	INTRA-CHAIN
LYS C 23 NZ	LYS C 250 NZ	0.472	INTRA-CHAIN
GLU C 31 OE1	LYS C 250 NZ	-1.071	INTRA-CHAIN
GLU C 31 OE2	LYS C 250 NZ	-1.221	INTRA-CHAIN
GLU C 63 OE1	LYS C 250 NZ	-1.132	INTRA-CHAIN
LYS C 183 NZ	LYS C 250 NZ	0.501	INTRA-CHAIN
LYS C 216 NZ	LYS C 250 NZ	0.488	INTRA-CHAIN
LYS C 248 NZ	LYS C 250 NZ	1.039	INTRA-CHAIN
LYS C 250 NZ	GLU C 18 OE2	-1.677	INTRA-CHAIN
LYS C 250 NZ	LYS C 23 NZ	0.472	INTRA-CHAIN
LYS C 250 NZ	GLU C 31 OE2	-1.221	INTRA-CHAIN
LYS C 250 NZ	LYS C 183 NZ	0.501	INTRA-CHAIN
LYS C 250 NZ	LYS C 216 NZ	0.488	INTRA-CHAIN
LYS C 250 NZ	LYS C 248 NZ	1.039	INTRA-CHAIN
GLU E 123 OE1	LYS C 250 NZ	-1.162	INTER-CHAIN
GLU E 156 OE1	LYS C 250 NZ	-1.159	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|      250|      C|         Q|      118|      E|
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Protrusion Index:
LYS A 250 C	0.27
LYS D 250 C	0.27
LYS C 250 N	0.10
LYS C 250 CA	0.15
LYS C 250 C	0.27
LYS C 250 O	0.31
LYS C 250 CB	0.24
LYS C 250 CG	0.16
LYS C 250 CD	0.13
LYS C 250 CE	0.21
LYS C 250 NZ	0.14

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Van der Waal's Interactions:
GLY C 24 O 139	LYS C 250 NZ 1662	-0.365	INTRA-CHAIN
SER C 25 OG 145	LYS C 250 NZ 1662	-0.009	INTRA-CHAIN
LYS C 248 NZ 1645	LYS C 250 NZ 1662	-0.019	INTRA-CHAIN
PRO E 119 CD 838	LYS C 250 NZ 1662	-0.027	INTER-CHAIN
ASP E 120 OD2 846	LYS C 250 NZ 1662	-0.059	INTER-CHAIN
GLN E 124 NE2 875	LYS C 250 NZ 1662	-0.010	INTER-CHAIN
ILE E 128 CD1 905	LYS C 250 NZ 1662	-0.010	INTER-CHAIN