Title

Roles Of Conserved Residues Of The Glycine Oxidase Goxa In Controlling Activity, Cooperativity, Subunit Composition, And Cysteine Tryptophylquinone Biosynthesis

Abstract

GoxA is a glycine oxidase that possesses a cysteine tryptophylquinone (CTQ) cofactor that is formed by posttranslational modifications that are catalyzed by a modifying enzyme GoxB. It is the second known tryptophylquinone enzyme to function as an oxidase, the other being the lysine ô-oxidase, LodA. All other enzymes containing CTQ or tryptophan tryptophylquinone (TTQ) cofactors are dehydrogenases. Kinetic analysis of GoxA revealed allosteric cooperativity for its glycine substrate, but not O2 . This is the first CTQ- or TTQ-dependent enzyme to exhibit cooperativity. Here, we show that cooperativity and homodimer stabilization are strongly dependent on the presence of Phe-237. Conversion of this residue, which is a Tyr in LodA, to Tyr or Ala eliminates the cooperativity and destabilizes the dimer. These mutations also significantly affect the kcat and Km values for the substrates. On the basis of structural and modeling studies, a mechanism by which Phe-237 exerts this influence is presented. Two active site residues, Asp-547 and His-466, were also examined and shown by site-directed mutagenesis to be critical for CTQ biogenesis. This result is compared with the results of similar studies of mutagenesis of structurally conserved residues of other tryptophylquinone enzymes. These results provide insight into the roles of specific active-site residues in catalysis and CTQ biogenesis, as well as describing an interesting mechanism by which a single residue can dictate whether or not an enzyme exhibits cooperative allosteric behavior toward a substrate.

Publication Date

10-28-2016

Publication Title

Journal of Biological Chemistry

Volume

291

Issue

44

Number of Pages

23199-23207

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1074/jbc.M116.741835

Socpus ID

84993972100 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/84993972100

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