Structural features of residue 38 in chain A

********************************* Electrostatic Interactions: LYS A 21 NZ GLU A 38 OE2 -1.145 INTRA-CHAIN GLU A 38 OE1 LYS A 21 NZ -1.074 INTRA-CHAIN GLU A 38 OE1 LYS A 42 NZ -2.701 INTRA-CHAIN GLU A 38 OE1 GLU A 56 OE1 3.071 INTRA-CHAIN GLU A 38 OE1 GLU A 56 OE2 2.753 INTRA-CHAIN GLU A 38 OE2 LYS A 21 NZ -1.145 INTRA-CHAIN GLU A 38 OE2 LYS A 42 NZ -2.147 INTRA-CHAIN GLU A 38 OE2 GLU A 56 OE1 2.721 INTRA-CHAIN LYS A 42 NZ GLU A 38 OE2 -2.147 INTRA-CHAIN GLU A 56 OE1 GLU A 38 OE1 3.071 INTRA-CHAIN GLU A 56 OE1 GLU A 38 OE2 2.721 INTRA-CHAIN GLU A 56 OE2 GLU A 38 OE1 2.753 INTRA-CHAIN ********************************* Hydrogen bonds: ---------------------------------------------------------- |Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2| ---------------------------------------------------------- | E| 38| A| Q| 376| B| ---------------------------------------------------------- | V| 377| B| E| 38| A| ---------------------------------------------------------- ********************************* Protrusion Index: GLU A 38 N 0.39 GLU A 38 CA 0.60 GLU A 38 C 0.37 GLU A 38 O 0.53 GLU A 38 CB 0.53 GLU A 38 CG 0.72 GLU A 38 CD 0.72 GLU A 38 OE1 0.69 GLU A 38 OE2 0.89 ********************************* Salt bridges: GLU A 38 LYS A 42 3.194 INTRA-CHAIN ********************************* Van der Waal's Interactions: PRO A 35 CD 252 GLU A 38 OE2 277 -0.222 INTRA-CHAIN GLU A 38 OE2 277 VAL B 377 CG2 2884 -0.026 INTER-CHAIN