Binding of PS01228 to ligands
 axisaxisaxis21%
»MGpointer ionic bonds 20.8%
»CApointer ionic bonds 12.5%
»SO4pointer van-der-waals bonds 12.5%
»WO6pointer covalent bonds 4.2%
hydrogen bonds 4.2%
van-der-waals bonds 4.2%
CLpointer van-der-waals bonds 8.3%
NAGpointer covalent bonds 4.2%
van-der-waals bonds 4.2%
VN4pointer covalent bonds 4.2%
van-der-waals bonds 4.2%
EPEpointer van-der-waals bonds 4.2%
GOLpointer van-der-waals bonds 4.2%
NHEpointer van-der-waals bonds 4.2%
PO4pointer van-der-waals bonds 4.2%
total 24
from 10 uniprot entries
Binding of PS01228 to fragments of boundmolecules
 axisaxisaxis33%
»MG ionic bonds 33.3%
»CA ionic bonds 20%
CL van-der-waals bonds 13.3%
pyranosepointer covalent bonds 6.7%
van-der-waals bonds 6.7%
piperazinepointer van-der-waals bonds 6.7%
V covalent bonds 6.7%
W covalent bonds 6.7%
total 15
from 9 uniprot entries
MG NAG VN4 PO4 GOL SO4 CA EPE NHE CL WO6 pyranose piperazine
[*]Pattern/motif:
   Pattern example: [FL]HDXD[LIV]X[PD]X[GDE]
   PROSITE example: PS00001
   PFAM example: PF00001
   Small 3D structural motif, examples:asx-turn,asx-motif, beta-turn, st-turn ,st-motif,...
   Secondary structure elements: helix or strand, example:helix
Protein family type:    family: Calculate Relative Risk: 
Interactions:
 main-chain
 side-chain
 Covalent, Ionic, H-bonds and Van-der-waals
 plane-plane bonds
 plane-atom bonds
 include 5 Å
Distribute against:
Ligands
Amino-acids
Nucleic-acids
PROSITE motifs
Small 3D motifs
Secondary structure elements
 Normalise by: