Structural features of residue 35 in chain J

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Electrostatic Interactions:
GLU J 34 OE1	LYS J 35 NZ	-1.439	INTRA-CHAIN
GLU J 34 OE2	LYS J 35 NZ	-1.710	INTRA-CHAIN
LYS J 35 NZ	GLU J 34 OE2	-1.710	INTRA-CHAIN
LYS J 35 NZ	LYS W 154 NZ	0.444	INTER-CHAIN
LYS J 35 NZ	GLU J 372 OE2	-1.134	INTRA-CHAIN
LYS J 35 NZ	GLU J 386 OE2	-1.623	INTRA-CHAIN
LYS J 35 NZ	LYS W 411 NZ	0.541	INTER-CHAIN
GLU J 372 OE1	LYS J 35 NZ	-1.143	INTRA-CHAIN
GLU J 372 OE2	LYS J 35 NZ	-1.134	INTRA-CHAIN
GLU J 386 OE1	LYS J 35 NZ	-1.527	INTRA-CHAIN
GLU J 386 OE2	LYS J 35 NZ	-1.623	INTRA-CHAIN
LYS W 154 NZ	LYS J 35 NZ	0.444	INTER-CHAIN
GLU W 404 OE1	LYS J 35 NZ	-1.057	INTER-CHAIN
LYS W 411 NZ	LYS J 35 NZ	0.541	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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|        Q|      130|      W|         K|       35|      J|
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Protrusion Index:
LYS J 35 N	0.07
LYS J 35 CA	0.09
LYS J 35 C	0.11
LYS J 35 O	0.08
LYS J 35 CB	0.10
LYS J 35 CG	0.05
LYS J 35 CD	0.04
LYS J 35 CE	0.01
LYS J 35 NZ	0.01

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Salt bridges:
GLU J 34	LYS J 35	2.245	INTRA-CHAIN

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Van der Waal's Interactions:
LYS J 35 NZ 189	THR W 128 CG2 889	-0.011	INTER-CHAIN
LYS J 35 NZ 189	ASN W 150 ND2 1049	-0.012	INTER-CHAIN
LYS J 35 NZ 189	PRO W 170 CD 1191	-0.016	INTER-CHAIN
LYS J 35 NZ 189	THR W 412 CG2 2996	-0.148	INTER-CHAIN