Structural features of residue 85 in chain E

********************************* Electrostatic Interactions: ASP E 77 OD1 ASP E 85 OD1 3.068 INTRA-CHAIN ASP E 77 OD1 ASP E 85 OD2 3.100 INTRA-CHAIN ASP E 77 OD2 ASP E 85 OD1 3.046 INTRA-CHAIN ASP E 77 OD2 ASP E 85 OD2 3.078 INTRA-CHAIN GLU E 78 OE1 ASP E 85 OD2 3.838 INTRA-CHAIN GLU E 78 OE2 ASP E 85 OD2 4.416 INTRA-CHAIN GLU E 79 OE1 ASP E 85 OD2 2.946 INTRA-CHAIN GLU E 79 OE2 ASP E 85 OD2 2.917 INTRA-CHAIN GLU E 82 OE1 ASP E 85 OD2 5.314 INTRA-CHAIN GLU E 82 OE2 ASP E 85 OD2 5.397 INTRA-CHAIN ASP E 85 OD1 ASP E 77 OD1 3.068 INTRA-CHAIN ASP E 85 OD1 ASP E 77 OD2 3.046 INTRA-CHAIN ASP E 85 OD1 GLU E 78 OE1 3.317 INTRA-CHAIN ASP E 85 OD1 GLU E 79 OE1 2.739 INTRA-CHAIN ASP E 85 OD1 GLU E 82 OE1 4.283 INTRA-CHAIN ASP E 85 OD2 ASP E 77 OD1 3.100 INTRA-CHAIN ASP E 85 OD2 ASP E 77 OD2 3.078 INTRA-CHAIN ASP E 85 OD2 GLU E 78 OE1 3.838 INTRA-CHAIN ASP E 85 OD2 GLU E 79 OE1 2.946 INTRA-CHAIN ASP E 85 OD2 GLU E 82 OE1 5.314 INTRA-CHAIN GLU E 107 OE2 ASP E 85 OD2 2.804 INTRA-CHAIN ********************************* Hydrogen bonds: ---------------------------------------------------------- |Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2| ---------------------------------------------------------- | T| 22| A| D| 85| E| ---------------------------------------------------------- | T| 25| A| D| 85| E| ---------------------------------------------------------- ********************************* Protrusion Index: ASP E 85 N 0.29 ASP E 85 CA 0.36 ASP E 85 C 0.45 ASP E 85 O 0.49 ASP E 85 CB 0.46 ASP E 85 CG 0.36 ASP E 85 OD1 0.26 ASP E 85 OD2 0.37 ********************************* Van der Waal's Interactions: THR A 22 CG2 108 ASP E 85 OD2 3935 -1.008 INTER-CHAIN ASN A 24 ND2 124 ASP E 85 OD2 3935 -0.112 INTER-CHAIN ASP E 85 OD2 3935 LEU E 88 CD2 3956 -0.010 INTRA-CHAIN