| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2047909 | FEBS Letters | 2013 | 6 Pages |
•PcUre2pB1 reduces both insulin and glutathionylated-PcGSTO3.•The holodimeric enzyme binds one molecule of oxidized glutathione per monomer.•Catalysis is not mediated by the cysteines of the protein but rather by the one of glutathione.•An asparagine residue is involved in glutathione stabilization.
Glutathione transferases (GSTs) are known to transfer glutathione onto small hydrophobic molecules in detoxification reactions. The GST Ure2pB1 from Phanerochaete chrysosporium exhibits atypical features, i.e. the presence of two glutathione binding sites and a high affinity towards oxidized glutathione. Moreover, PcUre2pB1 is able to efficiently deglutathionylate GS-phenacylacetophenone. Catalysis is not mediated by the cysteines of the protein but rather by the one of glutathione and an asparagine residue plays a key role in glutathione stabilization. Interestingly PcUre2pB1 interacts in vitro with a GST of the omega class. These properties are discussed in the physiological context of wood degrading fungi.
Structured summary of protein interactionsPcUre2pB1 and PcUre2pB1bind by X-ray crystallography (View interaction)PcUre2pB1enzymaticly reactsPcGTO3 by enzymatic study (View interaction)
