Structural features of residue 280 in chain B
********************************* Electrostatic Interactions: GLU B 55 OE1 ASP B 280 OD2 3.034 INTRA-CHAIN GLU B 55 OE2 ASP B 280 OD2 2.829 INTRA-CHAIN GLU B 61 OE1 ASP B 280 OD2 3.844 INTRA-CHAIN GLU B 61 OE2 ASP B 280 OD2 4.661 INTRA-CHAIN ASP B 269 OD1 ASP B 280 OD1 2.763 INTRA-CHAIN ASP B 269 OD1 ASP B 280 OD2 3.239 INTRA-CHAIN ASP B 269 OD2 ASP B 280 OD1 2.718 INTRA-CHAIN ASP B 269 OD2 ASP B 280 OD2 3.173 INTRA-CHAIN ASP B 274 OD1 ASP B 280 OD1 2.808 INTRA-CHAIN ASP B 274 OD1 ASP B 280 OD2 2.965 INTRA-CHAIN ASP B 274 OD2 ASP B 280 OD2 2.747 INTRA-CHAIN ASP B 280 OD1 GLU B 55 OE1 3.542 INTRA-CHAIN ASP B 280 OD1 GLU B 61 OE1 4.285 INTRA-CHAIN ASP B 280 OD1 GLU B 62 OE1 2.834 INTRA-CHAIN ASP B 280 OD1 ASP B 269 OD1 2.763 INTRA-CHAIN ASP B 280 OD1 ASP B 269 OD2 2.718 INTRA-CHAIN ASP B 280 OD1 ASP B 274 OD1 2.808 INTRA-CHAIN ASP B 280 OD2 GLU B 55 OE1 3.034 INTRA-CHAIN ASP B 280 OD2 GLU B 61 OE1 3.844 INTRA-CHAIN ASP B 280 OD2 ASP B 269 OD1 3.239 INTRA-CHAIN ASP B 280 OD2 ASP B 269 OD2 3.173 INTRA-CHAIN ASP B 280 OD2 ASP B 274 OD1 2.965 INTRA-CHAIN ASP B 280 OD2 ASP B 274 OD2 2.747 INTRA-CHAIN ********************************* Hydrogen bonds: ---------------------------------------------------------- |Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2| ---------------------------------------------------------- | S| 445| A| D| 280| B| ---------------------------------------------------------- ********************************* Protrusion Index: ASP B 280 N 0.15 ASP B 280 CA 0.01 ASP B 280 C -0.09 ASP B 280 O -0.15 ASP B 280 CB 0.02 ASP B 280 CG 0.15 ASP B 280 OD1 0.16 ASP B 280 OD2 0.21 ASP B 280 H 0.18 ********************************* Short Contacts: ARG B 279 N ASP B 280 H -0.088 INTRA-CHAIN ASP B 280 N TYR B 281 H -0.031 INTRA-CHAIN ********************************* Van der Waal's Interactions: ASN B 54 HD22 4772 ASP B 280 H 6894 -0.001 INTRA-CHAIN SER B 278 HG 6868 ASP B 280 H 6894 -0.008 INTRA-CHAIN ASP B 280 H 6894 GLY B 282 H 6913 -0.000 INTRA-CHAIN