Structural features of residue 310 in chain A

*********************************
Electrostatic Interactions:
GLU A 280 OE1	ASP A 310 OD2	4.664	INTRA-CHAIN
GLU A 280 OE2	ASP A 310 OD2	4.105	INTRA-CHAIN
GLU A 309 OE1	ASP A 310 OD2	6.379	INTRA-CHAIN
GLU A 309 OE2	ASP A 310 OD2	5.130	INTRA-CHAIN
ASP A 310 OD1	GLU A 280 OE1	3.846	INTRA-CHAIN
ASP A 310 OD1	GLU A 309 OE1	5.661	INTRA-CHAIN
ASP A 310 OD1	GLU A 321 OE1	2.752	INTRA-CHAIN
ASP A 310 OD1	ASP B 364 OD1	5.210	INTER-CHAIN
ASP A 310 OD1	ASP B 364 OD2	6.650	INTER-CHAIN
ASP A 310 OD2	GLU A 280 OE1	4.664	INTRA-CHAIN
ASP A 310 OD2	GLU A 309 OE1	6.379	INTRA-CHAIN
ASP A 310 OD2	ASP B 364 OD1	6.173	INTER-CHAIN
ASP A 310 OD2	ASP B 364 OD2	7.554	INTER-CHAIN
ASP B 364 OD1	ASP A 310 OD1	5.210	INTER-CHAIN
ASP B 364 OD1	ASP A 310 OD2	6.173	INTER-CHAIN
ASP B 364 OD2	ASP A 310 OD1	6.650	INTER-CHAIN
ASP B 364 OD2	ASP A 310 OD2	7.554	INTER-CHAIN

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

----------------------------------------------------------
|Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2|
----------------------------------------------------------
|        L|      362|      B|         D|      310|      A|
----------------------------------------------------------
|        T|      363|      B|         D|      310|      A|
----------------------------------------------------------

*********************************
Protrusion Index:
ASP A 310 N	0.83
ASP A 310 CA	0.68
ASP A 310 C	0.48
ASP A 310 O	0.41
ASP A 310 CB	0.88
ASP A 310 CG	0.86
ASP A 310 OD1	0.83
ASP A 310 OD2	0.91

*********************************
Van der Waal's Interactions:
ASP A 310 OD2 326	ARG B 361 NH2 736	-0.011	INTER-CHAIN
ASP A 310 OD2 326	THR B 363 CG2 751	-0.644	INTER-CHAIN
ASP A 310 OD2 326	ASP B 364 OD2 759	-0.041	INTER-CHAIN