Structural features of residue 36 in chain B
********************************* Electrostatic Interactions: LYS A 104 NZ GLU B 36 OE2 -5.085 INTER-CHAIN GLU B 33 OE1 GLU B 36 OE1 3.683 INTRA-CHAIN GLU B 33 OE1 GLU B 36 OE2 3.242 INTRA-CHAIN GLU B 33 OE2 GLU B 36 OE1 3.517 INTRA-CHAIN GLU B 33 OE2 GLU B 36 OE2 3.051 INTRA-CHAIN GLU B 36 OE1 GLU B 33 OE1 3.683 INTRA-CHAIN GLU B 36 OE1 GLU B 33 OE2 3.517 INTRA-CHAIN GLU B 36 OE1 LYS B 38 NZ -1.352 INTRA-CHAIN GLU B 36 OE1 LYS A 104 NZ -5.928 INTER-CHAIN GLU B 36 OE2 GLU B 33 OE1 3.242 INTRA-CHAIN GLU B 36 OE2 GLU B 33 OE2 3.051 INTRA-CHAIN GLU B 36 OE2 LYS B 38 NZ -1.459 INTRA-CHAIN GLU B 36 OE2 LYS A 104 NZ -5.085 INTER-CHAIN LYS B 38 NZ GLU B 36 OE2 -1.459 INTRA-CHAIN ********************************* Hydrogen bonds: ---------------------------------------------------------- |Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2| ---------------------------------------------------------- | K| 104| A| E| 36| B| ---------------------------------------------------------- ********************************* Protrusion Index: GLU B 36 N 1.51 GLU B 36 CA 1.71 GLU B 36 C 1.57 GLU B 36 O 1.82 GLU B 36 CB 1.74 GLU B 36 CG 2.31 GLU B 36 CD 2.79 GLU B 36 OE1 2.79 GLU B 36 OE2 3.09 ********************************* Salt bridges: GLU B 36 LYS A 104 2.671 INTER-CHAIN ********************************* Van der Waal's Interactions: GLU B 36 OE2 1298 TYR B 37 OH 1310 -0.711 INTRA-CHAIN GLU B 36 OE2 1298 LYS A 104 NZ 820 -0.871 INTER-CHAIN