Structural features of residue 120 in chain B
1 ASP B 120 OD2 3.176 INTER-CHAIN GLU A 28 OE2 ASP B 120 OD2 2.917 INTER-CHAIN GLU A 30 OE1 ASP B 120 OD2 2.952 INTER-CHAIN GLU A 30 OE2 ASP B 120 OD2 3.371 INTER-CHAIN GLU A 44 OE1 ASP B 120 OD2 7.075 INTER-CHAIN GLU A 44 OE2 ASP B 120 OD2 7.644 INTER-CHAIN GLU A 47 OE1 ASP B 120 OD2 2.897 INTER-CHAIN GLU A 47 OE2 ASP B 120 OD2 3.052 INTER-CHAIN ASP A 108 OD1 ASP B 120 OD1 2.861 INTER-CHAIN ASP A 108 OD1 ASP B 120 OD2 2.797 INTER-CHAIN GLU B 115 OE1 ASP B 120 OD2 3.542 INTRA-CHAIN GLU B 115 OE2 ASP B 120 OD2 3.248 INTRA-CHAIN ASP B 120 OD1 GLU A 28 OE1 3.237 INTER-CHAIN ASP B 120 OD1 GLU A 30 OE1 2.903 INTER-CHAIN ASP B 120 OD1 GLU A 44 OE1 6.632 INTER-CHAIN ASP B 120 OD1 GLU A 47 OE1 2.805 INTER-CHAIN ASP B 120 OD1 ASP A 108 OD1 2.861 INTER-CHAIN ASP B 120 OD1 GLU B 115 OE1 3.662 INTRA-CHAIN ASP B 120 OD2 GLU A 28 OE1 3.176 INTER-CHAIN ASP B 120 OD2 GLU A 30 OE1 2.952 INTER-CHAIN ASP B 120 OD2 GLU A 44 OE1 7.075 INTER-CHAIN ASP B 120 OD2 GLU A 47 OE1 2.897 INTER-CHAIN ASP B 120 OD2 ASP A 108 OD1 2.797 INTER-CHAIN ASP B 120 OD2 GLU B 115 OE1 3.542 INTRA-CHAIN ********************************* Hydrogen bonds: ---------------------------------------------------------- |Res1 type| Res1 No.| Chain1| Res2 type| Res2 No.| Chain2| ---------------------------------------------------------- | Y| 22| A| D| 120| B| ---------------------------------------------------------- ********************************* Protrusion Index: ASP B 120 N 0.91 ASP B 120 CA 0.72 ASP B 120 C 0.68 ASP B 120 O 0.86 ASP B 120 CB 0.53 ASP B 120 CG 0.64 ASP B 120 OD1 1.11 ASP B 120 OD2 0.50 ********************************* Van der Waal's Interactions: TYR A 22 OH 554 ASP B 120 OD2 1370 -2.586 INTER-CHAIN GLU A 44 OE2 737 ASP B 120 OD2 1370 -0.044 INTER-CHAIN PHE A 45 CZ 748 ASP B 120 OD2 1370 -0.123 INTER-CHAIN LYS B 116 NZ 1343 ASP B 120 OD2 1370 -0.159 INTRA-CHAIN SER B 119 OG 1362 ASP B 120 OD2 1370 -0.012 INTRA-CHAIN ASP B 120 OD2 1370 ASN B 121 ND2 1378 -0.035 INTRA-CHAIN