Binding to aminoacids
 axisaxisaxis9%
»ASPpointer hydrogen bonds 9.1%
van-der-waals bonds 9.1%
»GLYpointer hydrogen bonds 9.1%
van-der-waals bonds 9.1%
»HISpointer hydrogen bonds 9.1%
van-der-waals bonds 9.1%
»SERpointer hydrogen bonds 9.1%
van-der-waals bonds 9.1%
ALApointer van-der-waals bonds 9.1%
CYSpointer van-der-waals bonds 9.1%
GLUpointer van-der-waals bonds 9.1%
total 11
from 1 uniprot entries
Binding to aminoacids main-chain
 axisaxisaxis13%
»GLYpointer hydrogen bonds 12.5%
van-der-waals bonds 12.5%
»SERpointer hydrogen bonds 12.5%
van-der-waals bonds 12.5%
ALApointer van-der-waals bonds 12.5%
CYSpointer van-der-waals bonds 12.5%
ASPpointer van-der-waals bonds 12.5%
GLUpointer van-der-waals bonds 12.5%
total 8
from 1 uniprot entries
Binding to aminoacids side-chain
 axisaxisaxis14%
»ASPpointer hydrogen bonds 14.3%
van-der-waals bonds 14.3%
»HISpointer hydrogen bonds 14.3%
van-der-waals bonds 14.3%
ALApointer van-der-waals bonds 14.3%
GLUpointer van-der-waals bonds 14.3%
SERpointer van-der-waals bonds 14.3%
total 7
from 1 uniprot entries
SER ALA CYS ASP GLU HIS GLY
Code:
Molecule type:
Ligand:
Amino-acid:
Nucleic-acid:
Water:
Environment
Amino-acids: 
Nuclecic-acids: 
Ligands: 
Number of water molecules: 
Coordination geometry (metals only):
 
Protein family type:    family:    Calculate Relative Risk: 
Distribute against:
Interactions:  covalent, ionic, hydrogen, van-der-waals  plane-plane  plane-atom  include 5Å
 Normalise by: