Abstract
The replacement of histidine 307 with leucine in pig kidney D-amino acid oxidase perturbs its active site conformation accompanied by dramatic losses in protein-flavin interactions and enzymatic activity. However, the negative effect of this mutation on the holoenzyme structure is essentially eliminated in the presence of glycerol, resulting in up to 50% activity recovery and greater than 16-fold increase in the flavin affinity. Further analysis revealed that glycerol assists in the rearrangement of the protein toward its holoenzyme-like conformation together with reduction in the solvent-accessible protein hydrophobic area as demonstrated by limited proteolysis and use of affinity and hydrophobic probes. A substantial decrease in the protein-flavin interactions was demonstrated at a low temperature, but this reversible process was completely blocked in the presence of 40% glycerol. We suggest that the perturbation of the D-amino acid oxidase active site is due to the nonpolar nature of the mutation whose negative impact on the holoenzyme structure can be overcome by glycerol-induced strengthening of protein internal hydrophobic interactions.
Highlights
Binant mutant of pig kidney D-amino acid oxidase (DAAO)1 [10] as a model system
In this work we demonstrate the recovery of flavin binding and activity of the His-307 Leu (H307L) recombinant mutant of pig kidney DAAO in the presence of glycerol through the proposed glycerol-induced increase in protein internal hydrophobic interactions [9] and suggest an essential role of His-307 in maintaining the proper conformation of the DAAO flavin binding domain
Glycerol-assisted Restoration of Catalytic Activity and Flavin Binding of H307L DAAO—H307L DAAO was purified from 40 –50 g of E. coli cell paste according to the standard procedure [15] and generally yielded 5–7 mg of pure 39-kDa polypeptide as judged by SDS-PAGE
Summary
Binant mutant of pig kidney D-amino acid oxidase (DAAO)1 [10] as a model system. His-307 is one of two residues (the other is Tyr-228) undergoing affinity labeling with the D-propargylglycine-suicide substrate of pig kidney DAAO [11,12,13]. These results suggested that glycerol could have a restorative effect on the conformation of the H307L DAAO flavin binding site, which had been perturbed by mutagenesis.
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