3rpn
From Proteopedia
Crystal structure of human kappa class glutathione transferase in complex with S-hexylglutathione
Structural highlights
FunctionGSTK1_HUMAN Significant glutathione conjugating activity is found only with the model substrate, 1-chloro-2,4-dinitrobenzene (CDNB). Publication Abstract from PubMedGSTs (glutathione transferases) are a family of enzymes that primarily catalyse nucleophilic addition of the thiol of GSH (reduced glutathione) to a variety of hydrophobic electrophiles in the cellular detoxification of cytotoxic and genotoxic compounds. GSTks (Kappa class GSTs) are a distinct class because of their unique cellular localization, function and structure. In the present paper we report the crystal structures of hGSTk (human GSTk) in apo-form and in complex with GTX (S-hexylglutathione) and steady-state kinetic studies, revealing insights into the catalytic mechanism of hGSTk and other GSTks. Substrate binding induces a conformational change of the active site from an 'open' conformation in the apo-form to a 'closed' conformation in the GTX-bound complex, facilitating formations of the G site (GSH-binding site) and the H site (hydrophobic substrate-binding site). The conserved Ser(16) at the G site functions as the catalytic residue in the deprotonation of the thiol group and the conserved Asp(69), Ser(200), Asp(201) and Arg(202) form a network of interactions with gamma-glutamyl carboxylate to stabilize the thiolate anion. The H site is a large hydrophobic pocket with conformational flexibility to allow the binding of different hydrophobic substrates. The kinetic mechanism of hGSTk conforms to a rapid equilibrium random sequential Bi Bi model. Crystal structures and kinetic studies of human Kappa class glutathione transferase provide insights into the catalytic mechanism.,Wang B, Peng Y, Zhang T, Ding J Biochem J. 2011 Oct 15;439(2):215-25. PMID:21728995[1] From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine. See AlsoReferences
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Categories: Homo sapiens | Large Structures | Ding J | Peng Y | Wang B | Zhang T