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Molecular dissection of a putative iron reductase from Desulfotomaculum reducens MI-1.

Biochemical and biophysical research communications (2015-10-11)
Zhi Li, David D Kim, Ornella D Nelson, Anne E Otwell, Ruth E Richardson, Stephen J Callister, Hening Lin
ZUSAMMENFASSUNG

Desulfotomaculum reducens MI-1 is a Firmicute strain capable of reducing a variety of heavy metal ions and has a great potential in heavy metal bioremediation. We recently identified Dred_2421 as a potential iron reductase through proteomic study of D. reducens. The current study examines its iron-reduction mechanism. Dred_2421, like its close homolog from Escherichia coli (2, 4-dienoyl-CoA reductase), has an FMN-binding N-terminal domain (NTD), an FAD-binding C-terminal domain (CTD), and a 4Fe-4S cluster between the two domains. To understand the mechanism of the iron-reduction activity and the role of each domain, we generated a series of variants for each domain and investigated their iron-reduction activity. Our results suggest that CTD is the main contributor of the iron-reduction activity, and that NTD and the 4Fe-4S cluster are not directly involved in such activity. This study provides a mechanistic understanding of the iron-reductase activity of Dred_2421 and may also help to elucidate other physiological activities this enzyme may have.

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Riboflavin 5′-Monophosphat Natriumsalz Hydrat, synthetic, ≥70% (HPLC)
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Riboflavin 5′-Monophosphat Natriumsalz Hydrat, 73-79% (fluorimetric)
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Riboflavin 5′-monphosphate Natriumsalz Hydrat, ≥95% (HPLC)
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Riboflavin 5′-phosphate sodium salt hydrate, meets USP testing specifications
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Riboflavin 5′-Monophosphat Natriumsalz Hydrat, suitable for electrophoresis, suitable for acrylamide photopolymerization, ≥70%, powder