Cobalt modulates methanol turnover of the alcohol dehydrogenase in Desulfofundulus kuznetsovii strain TPOSR
Lukas Friedeheim, Karel Olavarria, Alfons J. M. Stams, Diana Z. Sousa

TL;DR
Cobalt boosts methanol oxidation in a microbe that lacks a typical cobalt-dependent pathway, suggesting new roles for cobalt in methanol metabolism.
Contribution
Reveals that cobalt enhances alcohol dehydrogenase activity in a methanol-oxidizing microbe lacking the cobalt-dependent methyltransferase pathway.
Findings
Cobalt at 2 µM increased methanol turnover rate of Adh1 from 1.76 to 3.5 s⁻¹.
Higher cobalt concentrations (>5 µM) inhibited Adh1 activity.
Nickel also enhanced Adh1 activity, with a 75% improvement at 200 µM NiSO4.
Abstract
Desulfofundulus kuznetsovii strain 17T oxidizes methanol via a two-pathway system involving both alcohol dehydrogenases (ADH) and a cobalt-dependent methanol methyltransferase (MT). In contrast, D. kuznetsovii strain TPOSR lacks the MT pathway, relying solely on ADH for growth on methanol. Despite the absence of the MT pathway, cobalt starvation resulted in lower methanol uptake rates and reduced growth rates in strain TPOSR, suggesting a critical role of cobalt in methanol metabolism outside of its role in the MT system. Given the often-crucial role of metal cofactors such as iron, zinc, and other metals in the active site of ADHs, we hypothesized that cobalt could influence the catalytic activity of the TPOSR ADHs. The gene encoding for the most abundant ADH during growth on methanol, Adh1, was heterologously expressed in Escherichia coli, and the enzyme was purified for kinetic…
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Taxonomy
TopicsMicrobial metabolism and enzyme function · Biofuel production and bioconversion · Microbial Metabolic Engineering and Bioproduction
