Structural features of residue 126 in chain A
********************************* Electrostatic Interactions: ASP A 126 OD1 GLU B 10 OE1 2.888 INTER-CHAIN ASP A 126 OD1 ASP B 15 OD1 5.070 INTER-CHAIN ASP A 126 OD1 ASP B 15 OD2 4.707 INTER-CHAIN ASP A 126 OD1 GLU B 39 OE1 4.039 INTER-CHAIN ASP A 126 OD1 GLU B 53 OE1 3.116 INTER-CHAIN ASP A 126 OD1 GLU A 68 OE1 2.916 INTRA-CHAIN ASP A 126 OD2 GLU B 10 OE1 2.986 INTER-CHAIN ASP A 126 OD2 ASP B 15 OD1 4.734 INTER-CHAIN ASP A 126 OD2 ASP B 15 OD2 4.239 INTER-CHAIN ASP A 126 OD2 GLU B 39 OE1 3.747 INTER-CHAIN ASP A 126 OD2 GLU B 53 OE1 3.128 INTER-CHAIN GLU B 10 OE1 ASP A 126 OD2 2.986 INTER-CHAIN GLU B 10 OE2 ASP A 126 OD2 3.166 INTER-CHAIN ASP B 15 OD1 ASP A 126 OD1 5.070 INTER-CHAIN ASP B 15 OD1 ASP A 126 OD2 4.734 INTER-CHAIN ASP B 15 OD2 ASP A 126 OD1 4.707 INTER-CHAIN ASP B 15 OD2 ASP A 126 OD2 4.239 INTER-CHAIN GLU B 39 OE1 ASP A 126 OD2 3.747 INTER-CHAIN GLU B 39 OE2 ASP A 126 OD2 3.126 INTER-CHAIN GLU B 53 OE1 ASP A 126 OD2 3.128 INTER-CHAIN GLU B 53 OE2 ASP A 126 OD2 3.133 INTER-CHAIN ********************************* Hydrogen bonds: ---------------------------------------------------------- |Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2| ---------------------------------------------------------- | C| 13| B| D| 126| A| ---------------------------------------------------------- | F| 14| B| D| 126| A| ---------------------------------------------------------- | S| 19| B| D| 126| A| ---------------------------------------------------------- ********************************* Protrusion Index: ASP A 126 N 0.25 ASP A 126 CA 0.21 ASP A 126 C 0.26 ASP A 126 O 0.32 ASP A 126 CB 0.08 ASP A 126 CG 0.06 ASP A 126 OD1 0.17 ASP A 126 OD2 0.10 ********************************* Van der Waal's Interactions: THR A 124 CG2 853 ASP A 126 OD2 868 -0.026 INTRA-CHAIN PRO A 125 CD 860 ASP A 126 OD2 868 -0.082 INTRA-CHAIN SER B 19 OG 1079 ASP A 126 OD2 868 -3.390 INTER-CHAIN LEU B 52 CD2 1354 ASP A 126 OD2 868 -0.027 INTER-CHAIN