Structural features of residue 330 in chain A

*********************************
Electrostatic Interactions:
ARG A 330 NH1	ARG B 402 NH1	3.201	INTER-CHAIN
ARG A 330 NH1	ARG B 405 NH1	3.058	INTER-CHAIN
ARG A 330 NH1	ARG B 405 NH2	3.558	INTER-CHAIN
ARG A 330 NH2	ARG B 402 NH1	3.666	INTER-CHAIN
ARG A 330 NH2	ARG B 402 NH2	3.289	INTER-CHAIN
ARG A 330 NH2	ARG B 405 NH1	3.341	INTER-CHAIN
ARG A 330 NH2	ARG B 405 NH2	3.885	INTER-CHAIN
ARG B 402 NH1	ARG A 330 NH1	3.201	INTER-CHAIN
ARG B 402 NH1	ARG A 330 NH2	3.666	INTER-CHAIN
ARG B 402 NH2	ARG A 330 NH2	3.289	INTER-CHAIN
ARG B 405 NH1	ARG A 330 NH1	3.058	INTER-CHAIN
ARG B 405 NH1	ARG A 330 NH2	3.341	INTER-CHAIN
ARG B 405 NH2	ARG A 330 NH1	3.558	INTER-CHAIN
ARG B 405 NH2	ARG A 330 NH2	3.885	INTER-CHAIN

*********************************
Hydrogen bonds:

----------------------------------------------------------
|Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2|
----------------------------------------------------------
|        R|      330|      A|         L|      387|      B|
----------------------------------------------------------
|        R|      330|      A|         D|      388|      B|
----------------------------------------------------------

*********************************
Protrusion Index:
ARG A 330 N	0.15
ARG A 330 CA	0.24
ARG A 330 C	0.43
ARG A 330 O	0.40
ARG A 330 CB	0.40
ARG A 330 CG	0.59
ARG A 330 CD	0.89
ARG A 330 NE	0.91
ARG A 330 CZ	0.88
ARG A 330 NH1	0.89
ARG A 330 NH2	1.06

*********************************
Salt bridges:
ARG A 330	ASP B 384	2.988	INTER-CHAIN

*********************************
Van der Waal's Interactions:
ARG A 330 NH2 46	ASP B 384 OD2 1314	-1.271	INTER-CHAIN