Characterization of a nif-regulated flavoprotein (FprA) from Rhodobacter capsulatus

A flavoprotein from Rhodobacter capsulatus was purified as a recombinant (His)6‐tag fusion from an Escherichia coli clone over‐expressing the fprA structural gene. The FprA protein is a homodimer containing one molecule of FMN per 48‐kDa monomer. Reduction of the flavoprotein by dithionite showed bi...

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Bibliographic Details
Published in:European journal of biochemistry Vol. 267; no. 3; pp. 780 - 787
Main Authors: Jouanneau, Y, Meyer, C, Asso, M, Guigliarelli, B, Willison, J.C
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Science Ltd 01-02-2000
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Summary:A flavoprotein from Rhodobacter capsulatus was purified as a recombinant (His)6‐tag fusion from an Escherichia coli clone over‐expressing the fprA structural gene. The FprA protein is a homodimer containing one molecule of FMN per 48‐kDa monomer. Reduction of the flavoprotein by dithionite showed biphasic kinetics, starting with a fast step of semiquinone (SQ) formation, and followed by a slow reduction of the SQ. This SQ was in the anionic form as shown by EPR and optical spectroscopies. Spectrophotometric titration gave a midpoint redox potential for the oxidized/SQ couple of Em1 = +20 mV (pH 8.0), whereas the SQ/hydroquinone couple could not be titrated due to the thermodynamic instability of SQ associated with its slow reduction process. The inability to detect the intermediate form, SQ, upon oxidative titration confirmed this instability and led to an estimate of Em2 – Em1 of > 80 mV. The reduction of SQ by dithionite was significantly accelerated when the [2Fe–2S] ferredoxin FdIV was used as redox mediator. The midpoint redox potential of this ferredoxin was determined to be −275 ± 2 mV at pH 7.5, consistent with FdIV serving as electron donor to FprA in vivo. FdIV and FprA were found to cross‐react when incubated together with the 1‐ethyl‐3‐(3‐dimethylaminopropyl)carbodiimide, giving a covalent complex with an Mr of ≈ 60 000. Formation of this complex was unaffected by the redox states of the two proteins. Other [2Fe–2S] ferredoxins, including FdV and FdVI from R. capsulatus, were ineffective as electron carriers to FprA, and cross‐reacted poorly with the flavoprotein. The possible function of FprA with regard to nitrogen fixation was investigated using an fprA‐deleted mutant. Although nitrogenase activity was significantly reduced in the mutant compared with the wild‐type strain, nitrogen fixation was apparently unaffected by the fprA deletion even under iron limitation or microaerobic conditions.
ISSN:0014-2956
1432-1033
DOI:10.1046/j.1432-1327.2000.01056.x