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Gene Review:

fdxN - nitrogen fixation protein FdxN

Sinorhizobium fredii NGR234

Riedel, K.U. et al., Masepohl, B. et al., Klipp, W. et al., Saeki, K. et al., Riedel, K.U. et al.

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Disease relevance of fdxN

These indicate functional differences among multiple ferredoxins in one bacterium other than in cyanobacterial heterocysts and indispensability of certain ferredoxins in nitrogen fixation other than Rhizobium meliloti FdxN [1].
Purified FdxN was able to mediate electron transport between illuminated chloroplasts and Rhodobacter capsulatus nitrogenase in vitro [2].
A constitutively expressed transcriptional fdxN fusion, which did not mediate detectable amounts of FdxN protein either in E. coli or in free-living R. meliloti cells, complemented the Fix- phenotype of an R. meliloti fdxN::[Tc] mutant strain to wild-type levels [3].

High impact information on fdxN

Our data suggest that FdxN contains two [4Fe-4S] clusters [2].
The deduced sequence of the FdxN protein is characterized by two cysteine motifs typical of bacterial-type ferredoxins [4].
Changing the amino acid residue proline in position 56 into methionine resulted in a FdxN mutant protein with decreased activity, whereas changes in positions 35 (Asp35Glu) and 45 (Gly45Glu) had no significant effect on the function of the FdxN mutant proteins [4].
Interposon insertion and plasmid integration mutagenesis demonstrated that FdxN is essential for nitrogen fixation in R. meliloti, whereas the predicted translation product of ORF3 (Mr 8708) is not necessary for this process [5].
Fusion proteins consisting of FdxN and LacZ or a partial Lpp protein restored the Fix- phenotype of an R. meliloti fdxN mutant to 3 and 11%, respectively, indicating that a C-terminal fusion did not completely abolish the function of FdxN [3].

References

Genetic analysis of functional differences among distinct ferredoxins in Rhodobacter capsulatus. Saeki, K., Suetsugu, Y., Tokuda, K., Miyatake, Y., Young, D.A., Marrs, B.L., Matsubara, H. J. Biol. Chem. (1991) [Pubmed]
A Rhizobium meliloti ferredoxin (FdxN) purified from Escherichia coli donates electrons to Rhodobacter capsulatus nitrogenase. Riedel, K.U., Jouanneau, Y., Masepohl, B., Pühler, A., Klipp, W. Eur. J. Biochem. (1995) [Pubmed]
Synthesis of the ferredoxin-like protein FdxN from Rhizobium meliloti bacteroids as a fusion protein in Escherichia coli. Riedel, K.U., Masepohl, B., Klipp, W., Pühler, A. Can. J. Microbiol. (1992) [Pubmed]
Functional analysis of the cysteine motifs in the ferredoxin-like protein FdxN of Rhizobium meliloti involved in symbiotic nitrogen fixation. Masepohl, B., Kutsche, M., Riedel, K.U., Schmehl, M., Klipp, W., Pühler, A. Mol. Gen. Genet. (1992) [Pubmed]
The Rhizobium meliloti fdxN gene encoding a ferredoxin-like protein is necessary for nitrogen fixation and is cotranscribed with nifA and nifB. Klipp, W., Reiländer, H., Schlüter, A., Krey, R., Pühler, A. Mol. Gen. Genet. (1989) [Pubmed]

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