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[SCAN] Electron Transfer between the QmoABC Membrane complex and Adenosine 5´-Phosphosulfate Reductase

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Américo G. Duarte, Bacterial Energy Metabolism Lab

When 25 Jan, 2017 from
12:00 pm to 01:00 pm
Where Auditorium
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SCAN

Title: Electron Transfer between the QmoABC Membrane complex and Adenosine 5´-Phosphosulfate Reductase

Speaker: Américo G. Duarte

Affiliation: Bacterial Energy Metabolism Lab

 

Abstract:

The dissimilatory adenosine 5’-phosphosulfate reductase (AprAB) is a key enzyme in the sulfate reduction pathway that catalyzes the reversible two electron reduction of adenosine 5’-phosphosulfate (APS) to sulfite and adenosine monophosphate (AMP). The physiological electron donor for AprAB is proposed to be the QmoABC membrane complex, coupling the quinone-pool to sulfate reduction.  However, direct electron transfer between these two proteins has never been observed. In this work we demonstrate for the first time direct electron transfer between the Desulfovibrio desulfuricans ATCC 27774 QmoABC complex and AprAB. Cyclic voltammetry conducted with the modified Qmo electrode and AprAB in the electrolyte solution presented the Qmo electrochemical signature with two additional well-defined one electron redox processes, attributed to the AprAB FAD redox behavior. Moreover, experiments performed under catalytic conditions using the QmoABC modified electrode, with AprAB and APS in solution, show a catalytic curren peak develop in the cathodic wave, attributed to substrate reduction, and which is not observed in the absence of QmoABC. Substrate dependence conducted with different electrode preparations (with and without immobilized Qmo) demonstrated that the QmoABC complex is essential for efficient electron delivery to AprAB, in order to sustain catalysis. These results confirm the role of Qmo in electron transfer to AprAB.

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