Structural features of residue 249 in chain E
********************************* Electrostatic Interactions: GLU A 242 OE1 LYS E 249 NZ -1.348 INTER-CHAIN GLU A 242 OE2 LYS E 249 NZ -1.289 INTER-CHAIN GLU A 466 OE1 LYS E 249 NZ -1.125 INTER-CHAIN GLU A 466 OE2 LYS E 249 NZ -1.279 INTER-CHAIN LYS A 634 NZ LYS E 249 NZ 0.430 INTER-CHAIN LYS A 680 NZ LYS E 249 NZ 0.448 INTER-CHAIN GLU E 242 OE2 LYS E 249 NZ -1.117 INTRA-CHAIN LYS E 249 NZ GLU A 242 OE2 -1.289 INTER-CHAIN LYS E 249 NZ GLU E 242 OE2 -1.117 INTRA-CHAIN LYS E 249 NZ GLU A 466 OE2 -1.279 INTER-CHAIN LYS E 249 NZ GLU E 575 OE2 -1.307 INTRA-CHAIN LYS E 249 NZ LYS E 634 NZ 0.464 INTRA-CHAIN LYS E 249 NZ LYS A 634 NZ 0.430 INTER-CHAIN LYS E 249 NZ LYS A 680 NZ 0.448 INTER-CHAIN GLU E 575 OE1 LYS E 249 NZ -1.513 INTRA-CHAIN GLU E 575 OE2 LYS E 249 NZ -1.307 INTRA-CHAIN LYS E 634 NZ LYS E 249 NZ 0.464 INTRA-CHAIN ********************************* Hydrogen bonds: ---------------------------------------------------------- |Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2| ---------------------------------------------------------- | K| 249| E| Q| 244| A| ---------------------------------------------------------- ********************************* Protrusion Index: LYS E 249 N 0.20 LYS E 249 CA 0.24 LYS E 249 C 0.20 LYS E 249 O 0.22 LYS E 249 CB 0.20 LYS E 249 CG 0.16 LYS E 249 CD 0.16 LYS E 249 CE 0.06 LYS E 249 NZ 0.11 ********************************* Van der Waal's Interactions: GLN E 245 NE2 7392 LYS E 249 NZ 7417 -0.011 INTRA-CHAIN LYS E 249 NZ 7417 ASP E 581 OD2 10038 -0.024 INTRA-CHAIN