Structural features of residue 122 in chain L
********************************* Electrostatic Interactions: LYS H 138 NZ GLU L 122 OE2 -1.216 INTER-CHAIN ASP H 202 OD1 GLU L 122 OE1 3.352 INTER-CHAIN ASP H 202 OD2 GLU L 122 OE1 3.407 INTER-CHAIN LYS H 203 NZ GLU L 122 OE2 -4.299 INTER-CHAIN LYS H 204 NZ GLU L 122 OE2 -1.321 INTER-CHAIN GLU L 122 OE1 LYS H 138 NZ -1.227 INTER-CHAIN GLU L 122 OE1 LYS L 182 NZ -1.118 INTRA-CHAIN GLU L 122 OE1 ASP H 202 OD2 3.407 INTER-CHAIN GLU L 122 OE1 LYS H 203 NZ -6.269 INTER-CHAIN GLU L 122 OE1 LYS H 204 NZ -1.181 INTER-CHAIN GLU L 122 OE2 LYS H 138 NZ -1.216 INTER-CHAIN GLU L 122 OE2 LYS L 182 NZ -1.133 INTRA-CHAIN GLU L 122 OE2 ASP H 202 OD2 3.289 INTER-CHAIN GLU L 122 OE2 LYS H 203 NZ -4.299 INTER-CHAIN GLU L 122 OE2 LYS H 204 NZ -1.321 INTER-CHAIN LYS L 182 NZ GLU L 122 OE2 -1.133 INTRA-CHAIN ********************************* Hydrogen bonds: ---------------------------------------------------------- |Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2| ---------------------------------------------------------- | K| 203| H| E| 122| L| ---------------------------------------------------------- ********************************* Protrusion Index: GLU L 122 N 0.81 GLU L 122 CA 1.02 GLU L 122 C 0.81 GLU L 122 O 0.98 GLU L 122 CB 0.86 GLU L 122 CG 1.00 GLU L 122 CD 0.97 GLU L 122 OE1 1.06 GLU L 122 OE2 0.80 ********************************* Salt bridges: GLU L 122 LYS H 203 2.526 INTER-CHAIN ********************************* Van der Waal's Interactions: SER L 120 OG 897 GLU L 122 OE2 912 -0.028 INTRA-CHAIN SER L 121 OG 903 GLU L 122 OE2 912 -0.019 INTRA-CHAIN GLU L 122 OE2 912 PRO H 123 CD 2641 -0.209 INTER-CHAIN GLU L 122 OE2 912 LYS H 203 NZ 3225 -0.331 INTER-CHAIN