Structural features of residue 330 in chain B

********************************* Electrostatic Interactions: ARG A 402 NH1 ARG B 330 NH1 3.440 INTER-CHAIN ARG A 402 NH1 ARG B 330 NH2 3.729 INTER-CHAIN ARG A 402 NH2 ARG B 330 NH1 3.058 INTER-CHAIN ARG A 402 NH2 ARG B 330 NH2 3.348 INTER-CHAIN ARG A 405 NH1 ARG B 330 NH1 3.433 INTER-CHAIN ARG A 405 NH1 ARG B 330 NH2 3.523 INTER-CHAIN ARG A 405 NH2 ARG B 330 NH1 3.960 INTER-CHAIN ARG A 405 NH2 ARG B 330 NH2 3.965 INTER-CHAIN ARG B 330 NH1 ARG A 402 NH1 3.440 INTER-CHAIN ARG B 330 NH1 ARG A 402 NH2 3.058 INTER-CHAIN ARG B 330 NH1 ARG A 405 NH1 3.433 INTER-CHAIN ARG B 330 NH1 ARG A 405 NH2 3.960 INTER-CHAIN ARG B 330 NH2 ARG A 402 NH1 3.729 INTER-CHAIN ARG B 330 NH2 ARG A 402 NH2 3.348 INTER-CHAIN ARG B 330 NH2 ARG A 405 NH1 3.523 INTER-CHAIN ARG B 330 NH2 ARG A 405 NH2 3.965 INTER-CHAIN ********************************* Hydrogen bonds: ---------------------------------------------------------- |Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2| ---------------------------------------------------------- | R| 330| B| L| 387| A| ---------------------------------------------------------- | R| 330| B| D| 388| A| ---------------------------------------------------------- ********************************* Protrusion Index: ARG B 330 N 0.18 ARG B 330 CA 0.23 ARG B 330 C 0.39 ARG B 330 O 0.36 ARG B 330 CB 0.43 ARG B 330 CG 0.67 ARG B 330 CD 0.72 ARG B 330 NE 0.81 ARG B 330 CZ 0.84 ARG B 330 NH1 0.88 ARG B 330 NH2 1.22 ********************************* Van der Waal's Interactions: ARG B 330 NH2 887 ASP A 384 OD2 473 -0.174 INTER-CHAIN