Structural features of residue 125 in chain B
********************************* Electrostatic Interactions: ASP A 10 OD1 ASP B 125 OD1 4.194 INTER-CHAIN ASP A 10 OD1 ASP B 125 OD2 3.831 INTER-CHAIN ASP A 10 OD2 ASP B 125 OD1 4.386 INTER-CHAIN ASP A 10 OD2 ASP B 125 OD2 3.874 INTER-CHAIN GLU A 15 OE1 ASP B 125 OD2 3.239 INTER-CHAIN GLU A 15 OE2 ASP B 125 OD2 3.192 INTER-CHAIN GLU A 22 OE1 ASP B 125 OD2 3.536 INTER-CHAIN GLU A 22 OE2 ASP B 125 OD2 3.433 INTER-CHAIN GLU A 208 OE1 ASP B 125 OD2 3.189 INTER-CHAIN GLU A 208 OE2 ASP B 125 OD2 2.898 INTER-CHAIN ASP B 97 OD2 ASP B 125 OD2 2.739 INTRA-CHAIN ASP B 125 OD1 ASP A 10 OD1 4.194 INTER-CHAIN ASP B 125 OD1 ASP A 10 OD2 4.386 INTER-CHAIN ASP B 125 OD1 GLU A 15 OE1 2.909 INTER-CHAIN ASP B 125 OD1 GLU A 22 OE1 3.044 INTER-CHAIN ASP B 125 OD1 GLU A 208 OE1 3.485 INTER-CHAIN ASP B 125 OD2 ASP A 10 OD1 3.831 INTER-CHAIN ASP B 125 OD2 ASP A 10 OD2 3.874 INTER-CHAIN ASP B 125 OD2 GLU A 15 OE1 3.239 INTER-CHAIN ASP B 125 OD2 GLU A 22 OE1 3.536 INTER-CHAIN ASP B 125 OD2 ASP B 97 OD2 2.739 INTRA-CHAIN ASP B 125 OD2 GLU A 208 OE1 3.189 INTER-CHAIN ********************************* Hydrogen bonds: ---------------------------------------------------------- |Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2| ---------------------------------------------------------- | R| 18| A| D| 125| B| ---------------------------------------------------------- ********************************* Protrusion Index: ASP B 125 N 0.68 ASP B 125 CA 0.52 ASP B 125 C 0.42 ASP B 125 O 0.39 ASP B 125 CB 0.46 ASP B 125 CG 0.53 ASP B 125 OD1 0.68 ASP B 125 OD2 0.62 ********************************* Salt bridges: ARG A 18 ASP B 125 3.121 INTER-CHAIN ********************************* Van der Waal's Interactions: LEU A 14 CD2 73 ASP B 125 OD2 3523 -0.606 INTER-CHAIN ARG A 18 NH2 109 ASP B 125 OD2 3523 -0.275 INTER-CHAIN SER B 119 OG 3479 ASP B 125 OD2 3523 -0.012 INTRA-CHAIN