Title

A Suicide Mutation Affecting Proton Transfers To High-Valent Hemes Causes Inactivation Of Maug During Catalysis

Abstract

In the absence of its substrate, the autoreduction of the high-valent bis-FeIV state of the hemes of MauG to the diferric state proceeds via a Compound I-like and then a Compound II-like intermediate. This process is coupled to oxidative damage to specific methionine residues and inactivation of MauG. The autoreduction of a P107V MauG variant, which is more prone to oxidative damage, proceeds directly from the bis-FeIV to the Compound II-like state with no detectable Compound I intermediate. Comparison of the crystal structures of native and P107V MauG reveals that this mutation alters the positions of amino acid residues in the heme site as well as the water network that delivers protons from the solvent to the hemes during their reduction. Kinetic, spectroscopic, and solvent kinetic isotope effect studies demonstrate that these changes in the heme site affect the protonation state of the ferryl heme and the relative efficiencies of two alternative pathways for the transfer of protons from solvent to the hemes. These changes enhance the rate of autoreduction of P107V MauG such that it competes with the catalytic reaction with substrate and causes the enzyme to inactivate itself during the steady-state reaction with H2O2 and its substrate. Thus, while this mutation has negligible effects on the initial steady-state kinetic parameters of MauG, it is a fatal mutation as it causes inactivation during catalysis.

Publication Date

10-11-2016

Publication Title

Biochemistry

Volume

55

Issue

40

Number of Pages

5738-5745

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1021/acs.biochem.6b00816

Socpus ID

84991490317 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/84991490317

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