Target
Glycogen phosphorylase, liver form
Ligand
BDBM50256331
Substrate
n/a
Meas. Tech.
ChEMBL_515050 (CHEMBL1034792)
IC50
1147±n/a nM
Citation
 Sparks, SMBanker, PBickett, DMCarter, HLClancy, DCDickerson, SHDwornik, KAGarrido, DMGolden, PLNolte, RTPeat, AJSheckler, LRTavares, FXThomson, SAWang, LWeiel, JE Anthranilimide-based glycogen phosphorylase inhibitors for the treatment of type 2 diabetes: 1. Identification of 1-amino-1-cycloalkyl carboxylic acid headgroups. Bioorg Med Chem Lett 19:976-80 (2009) [PubMed]  Article 
Target
Name:
Glycogen phosphorylase, liver form
Synonyms:
Glycogen Phosphorylase (PYGL) | Glycogen Phosphorylase, liver form | Liver glycogen phosphorylase | PYGL | PYGL_HUMAN
Type:
Homodimer
Mol. Mass.:
97153.98
Organism:
Homo sapiens (Human)
Description:
Dimers associate into a tetramer to form the enzymatically active phosphorylase A.
Residue:
847
Sequence:
MAKPLTDQEKRRQISIRGIVGVENVAELKKSFNRHLHFTLVKDRNVATTRDYYFALAHTVRDHLVGRWIRTQQHYYDKCPKRVYYLSLEFYMGRTLQNTMINLGLQNACDEAIYQLGLDIEELEEIEEDAGLGNGGLGRLAACFLDSMATLGLAAYGYGIRYEYGIFNQKIRDGWQVEEADDWLRYGNPWEKSRPEFMLPVHFYGKVEHTNTGTKWIDTQVVLALPYDTPVPGYMNNTVNTMRLWSARAPNDFNLRDFNVGDYIQAVLDRNLAENISRVLYPNDNFFEGKELRLKQEYFVVAATLQDIIRRFKASKFGSTRGAGTVFDAFPDQVAIQLNDTHPALAIPELMRIFVDIEKLPWSKAWELTQKTFAYTNHTVLPEALERWPVDLVEKLLPRHLEIIYEINQKHLDRIVALFPKDVDRLRRMSLIEEEGSKRINMAHLCIVGSHAVNGVAKIHSDIVKTKVFKDFSELEPDKFQNKTNGITPRRWLLLCNPGLAELIAEKIGEDYVKDLSQLTKLHSFLGDDVFLRELAKVKQENKLKFSQFLETEYKVKINPSSMFDVQVKRIHEYKRQLLNCLHVITMYNRIKKDPKKLFVPRTVIIGGKAAPGYHMAKMIIKLITSVADVVNNDPMVGSKLKVIFLENYRVSLAEKVIPATDLSEQISTAGTEASGTGNMKFMLNGALTIGTMDGANVEMAEEAGEENLFIFGMRIDDVAALDKKGYEAKEYYEALPELKLVIDQIDNGFFSPKQPDLFKDIINMLFYHDRFKVFADYEAYVKCQDKVSQLYMNPKAWNTMVLKNIAASGKFSSDRTIKEYAQNIWNVEPSDLKISLSNESNKVNGN
  
Inhibitor
Name:
BDBM50256331
Synonyms:
1-(3-(3-mesitylureido)-2-naphthamido)-4-oxocyclohexanecarboxylic acid | CHEMBL519942
Type:
Small organic molecule
Emp. Form.:
C28H29N3O5
Mol. Mass.:
487.547
SMILES:
Cc1cc(C)c(NC(=O)Nc2cc3ccccc3cc2C(=O)NC2(CCC(=O)CC2)C(O)=O)c(C)c1
Structure:
Search PDB for entries with ligand similarity: