Structural features of residue 290 in chain A
********************************* Electrostatic Interactions: ARG A 290 NH1 ARG A 318 NH1 3.058 INTRA-CHAIN ARG A 290 NH1 ARG A 318 NH2 3.548 INTRA-CHAIN ARG A 290 NH1 ARG B 334 NH1 6.125 INTER-CHAIN ARG A 290 NH1 ARG B 334 NH2 8.180 INTER-CHAIN ARG A 290 NH1 HIS B 364 NE2 2.337 INTER-CHAIN ARG A 290 NH2 ARG A 318 NH2 3.219 INTRA-CHAIN ARG A 290 NH2 ARG B 334 NH1 4.822 INTER-CHAIN ARG A 290 NH2 ARG B 334 NH2 6.012 INTER-CHAIN ARG A 290 NH2 HIS B 364 NE2 2.364 INTER-CHAIN ARG A 318 NH1 ARG A 290 NH1 3.058 INTRA-CHAIN ARG A 318 NH2 ARG A 290 NH1 3.548 INTRA-CHAIN ARG A 318 NH2 ARG A 290 NH2 3.219 INTRA-CHAIN ARG B 334 NH1 ARG A 290 NH1 6.125 INTER-CHAIN ARG B 334 NH1 ARG A 290 NH2 4.822 INTER-CHAIN ARG B 334 NH2 ARG A 290 NH1 8.180 INTER-CHAIN ARG B 334 NH2 ARG A 290 NH2 6.012 INTER-CHAIN HIS B 364 NE2 ARG A 290 NH1 2.337 INTER-CHAIN ********************************* Hydrogen bonds: ---------------------------------------------------------- |Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2| ---------------------------------------------------------- | R| 290| A| E| 298| B| ---------------------------------------------------------- ********************************* Protrusion Index: ARG A 290 N 0.04 ARG A 290 CA 0.06 ARG A 290 C 0.07 ARG A 290 O 0.01 ARG A 290 CB 0.13 ARG A 290 CG 0.09 ARG A 290 CD 0.08 ARG A 290 NE 0.07 ARG A 290 CZ 0.09 ARG A 290 NH1 0.08 ARG A 290 NH2 0.06 ********************************* Van der Waal's Interactions: ARG A 290 NH2 2139 ASN B 330 ND2 6735 -0.273 INTER-CHAIN ARG A 290 NH2 2139 LEU B 331 CD2 6743 -0.011 INTER-CHAIN ILE B 68 CD1 4716 ARG A 290 NH2 2139 -0.016 INTER-CHAIN