Home Research COVID-19 Services Publications People Teaching Job Opening News Forum --> -->
Online Services

I-TASSER I-TASSER-MTD C-I-TASSER CR-I-TASSER QUARK C-QUARK LOMETS MUSTER CEthreader SEGMER DeepFold DeepFoldRNA FoldDesign COFACTOR COACH MetaGO TripletGO IonCom FG-MD ModRefiner REMO DEMO DEMO-EM DMFold SPRING COTH Threpp PEPPI BSpred ANGLOR EDock BSP-SLIM SAXSTER FUpred ThreaDom ThreaDomEx EvoDesign BindProf BindProfX SSIPe GPCR-I-TASSER MAGELLAN ResQ STRUM DAMpred

TM-score TM-align US-align MM-align RNA-align NW-align LS-align EDTSurf MVP MVP-Fit SPICKER HAAD PSSpred 3DRobot MR-REX I-TASSER-MR SVMSEQ NeBcon ResPRE TripletRes DeepPotential WDL-RF ATPbind DockRMSD DeepMSA FASPR EM-Refiner GPU-I-TASSER

BioLiP E. coli GLASS GPCR-HGmod GPCR-RD GPCR-EXP Tara-3D TM-fold DECOYS POTENTIAL RW/RWplus EvoEF HPSF THE-DB ADDRESS Alpaca-Antibody CASP7 CASP8 CASP9 CASP10 CASP11 CASP12 CASP13 CASP14

BioLiP
Download all results in tab-seperated text for 28 receptor-ligand interactions, whose format is explained at readme.txt.
  • Hover over PDB to view the title of the structure. Click PDB to view the structure at the RCSB PDB database. Resolution -1.00 means the resolution is unavailable, e.g., for NMR structures.
  • Click Site # to view the binding site structure. Hover over Site # to view the binding residues.
  • Hover over Ligand to view the full ligand name. Click Ligand to view the 2D diagram and other detail information of the ligand.
  • Hover over EC number to view the full name of enzymatic activity.
  • Hover over GO terms to view all GO terms.
  • Hover over UniProt to view the protein name.

    • Sort results by
    << < 1 > >>
    Go to page

    # PDB
    (Resolution Å)     		Site # Ligand EC number GO terms UniProt PubMed Binding
    affinity
    1 2rku:A (1.95) BS02 R78 2.7.11.21 GO:0004672 ... P53350 18005335 MOAD: ic50=8nM
    PDBbind: -logKd/Ki=8.30, IC50=5.0nM
    BindingDB: IC50=0.830000nM, Kd=0.190000nM, Ki=<1nM
    2 4i5m:A (1.801) BS01 R78 2.7.11.21 GO:0004672 ... Q9NYY3 23794260 MOAD: ic50=0.0088uM
    PDBbind: -logKd/Ki=8.06, IC50=8.8nM
    BindingDB: IC50=14nM, Ki=<1nM, Kd=0.810000nM
    3 4o74:A (1.45) BS01 R78 ? N/A O60885 24568369 MOAD: ic50=0.025uM
    PDBbind: -logKd/Ki=7.60, IC50=25nM
    BindingDB: IC50=25nM, Kd=37nM, Ki=56nM
    4 4o74:B (1.45) BS01 R78 ? N/A O60885 24568369 MOAD: ic50=0.025uM
    BindingDB: IC50=25nM, Kd=37nM, Ki=56nM
    5 4ogi:A (1.73) BS01 R78 ? N/A O60885 24584101 MOAD: Kd=37nM
    PDBbind: -logKd/Ki=7.43, Kd=37nM
    BindingDB: IC50=25nM, Kd=37nM, Ki=56nM
    6 4ogi:B (1.73) BS01 R78 ? N/A O60885 24584101 MOAD: Kd=37nM
    BindingDB: IC50=25nM, Kd=37nM, Ki=56nM
    7 4py6:A (2.5) BS01 R78 ? N/A Q8I240 N/A
    8 4py6:B (2.5) BS01 R78 ? N/A Q8I240 N/A
    9 4py6:C (2.5) BS01 R78 ? N/A Q8I240 N/A
    10 4py6:D (2.5) BS01 R78 ? N/A Q8I240 N/A
    11 5c8g:A (1.95) BS01 R78 ? N/A D0A8L1 N/A
    12 5c8g:B (1.95) BS01 R78 ? N/A D0A8L1 N/A
    13 5tcm:A (2.2) BS01 R78 ? N/A A0A3Q8I8I6 N/A
    14 5tcm:B (2.2) BS01 R78 ? N/A A0A3Q8I8I6 N/A
    15 5tcm:C (2.2) BS01 R78 ? N/A A0A3Q8I8I6 N/A
    16 5vbq:A (1.65) BS01 R78 ? N/A Q58F21 34710325 BindingDB: IC50=1400nM
    17 5vbq:B (1.65) BS01 R78 ? N/A Q58F21 34710325 BindingDB: IC50=1400nM
    18 6bqq:A (1.8) BS01 R78 2.7.11.17 GO:0004672 ... Q96RR4 N/A BindingDB: Kd=23nM
    19 6cw0:A (1.38) BS01 R78 ? N/A A3FQ86 N/A
    20 6cw0:B (1.38) BS01 R78 ? N/A A3FQ86 N/A
    21 6mf9:A (2.037) BS01 R78 ? GO:0000124 ... Q5CQH9 N/A
    22 6mf9:B (2.037) BS01 R78 ? GO:0000124 ... Q5CQH9 N/A
    23 7k0u:A (2.52) BS01 R78 2.3.1.48
    2.7.11.1    		 GO:0004402 ... P21675 35191694 BindingDB: IC50=160nM, Kd=170nM
    24 7k0u:B (2.52) BS01 R78 2.3.1.48
    2.7.11.1    		 GO:0004402 ... P21675 35191694 BindingDB: IC50=160nM, Kd=170nM
    25 7l9g:A (1.36) BS01 R78 ? N/A P25440 34710325
    26 7l9l:A (1.55) BS01 R78 ? N/A Q15059 34710325
    27 7lai:A (1.85) BS01 R78 ? N/A U3KQA6 34710325
    28 7n7m:A (2.6) BS01 R78 2.7.1.149 GO:0001750 ... P48426 34001596
    Reference:
  • Chengxin Zhang, Xi Zhang, Peter L Freddolino, and Yang Zhang. BioLiP2: an updated structure database for biologically relevent ligand-protein interactions, Nucleic Acids Research, gkad630 (2023).
  • Jianyi Yang, Ambrish Roy, and Yang Zhang. BioLiP: a semi-manually curated database for biologically relevant ligand-protein interactions, Nucleic Acids Research, 41: D1096-D1103 (2013) (download the PDF file).

    • yangzhanglabumich.edu | (734) 647-1549 | 100 Washtenaw Avenue, Ann Arbor, MI 48109-2218