Structural features of residue 35 in chain W
********************************* Electrostatic Interactions: LYS A 154 NZ LYS W 35 NZ 0.444 INTER-CHAIN GLU A 404 OE1 LYS W 35 NZ -1.057 INTER-CHAIN LYS A 411 NZ LYS W 35 NZ 0.541 INTER-CHAIN GLU W 34 OE1 LYS W 35 NZ -1.439 INTRA-CHAIN GLU W 34 OE2 LYS W 35 NZ -1.710 INTRA-CHAIN LYS W 35 NZ GLU W 34 OE2 -1.710 INTRA-CHAIN LYS W 35 NZ LYS A 154 NZ 0.444 INTER-CHAIN LYS W 35 NZ GLU W 372 OE2 -1.134 INTRA-CHAIN LYS W 35 NZ GLU W 386 OE2 -1.623 INTRA-CHAIN LYS W 35 NZ LYS A 411 NZ 0.541 INTER-CHAIN GLU W 372 OE1 LYS W 35 NZ -1.143 INTRA-CHAIN GLU W 372 OE2 LYS W 35 NZ -1.134 INTRA-CHAIN GLU W 386 OE1 LYS W 35 NZ -1.527 INTRA-CHAIN GLU W 386 OE2 LYS W 35 NZ -1.623 INTRA-CHAIN ********************************* Hydrogen bonds: ---------------------------------------------------------- |Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2| ---------------------------------------------------------- | Q| 130| A| K| 35| W| ---------------------------------------------------------- ********************************* Protrusion Index: LYS W 35 N 0.07 LYS W 35 CA 0.09 LYS W 35 C 0.11 LYS W 35 O 0.08 LYS W 35 CB 0.10 LYS W 35 CG 0.05 LYS W 35 CD 0.04 LYS W 35 CE 0.01 LYS W 35 NZ 0.01 ********************************* Salt bridges: GLU W 34 LYS W 35 2.244 INTRA-CHAIN ********************************* Van der Waal's Interactions: LYS W 35 NZ 189 THR A 128 CG2 889 -0.011 INTER-CHAIN LYS W 35 NZ 189 ASN A 150 ND2 1049 -0.012 INTER-CHAIN LYS W 35 NZ 189 ASP A 153 OD2 1073 -0.084 INTER-CHAIN LYS W 35 NZ 189 LEU A 169 CD2 1184 -0.030 INTER-CHAIN LYS W 35 NZ 189 PRO A 170 CD 1191 -0.016 INTER-CHAIN LYS W 35 NZ 189 TYR W 387 OH 2797 -1.574 INTRA-CHAIN LYS W 35 NZ 189 LEU A 402 CD2 2915 -0.014 INTER-CHAIN LYS W 35 NZ 189 ARG A 405 NH2 2941 -0.200 INTER-CHAIN LYS W 35 NZ 189 THR A 412 CG2 2996 -0.148 INTER-CHAIN