Manfred Schmehl scite author profile

DNA sequence analysis of a 12236 bp fragment, which is located upstream of nifE in Rhodobacter capsulatus nif region A, revealed the presence of ten open reading frames. With the exception of fdxC and fdxN, which encode a plant-type and a bacterial-type ferredoxin, the deduced products of these coding regions exhibited no significant homology to known proteins. Analysis of defined insertion and deletion mutants demonstrated that six of these genes were required for nitrogen fixation. Therefore, we propose to call these genes rnfA, rnfB, rnfC, rnfD, rnfE and rnfF (for Rhodobacter nitrogen fixation). Secondary structure predictions suggested that the rnf genes encode four potential membrane proteins and two putative iron-sulphur proteins, which contain cysteine motifs (C-X2-C-X2-C-X3-C-P) typical for [4Fe--4S] proteins. Comparison of the in vivo and in vitro nitrogenase activities of fdxN and rnf mutants suggested that the products encoded by these genes are involved in electron transport to nitrogenase. In addition, these mutants were shown to contain significantly reduced amounts of nitrogenase. The hypothesis that this new class of nitrogen fixation genes encodes components of an electron transfer system to nitrogenase was corroborated by analysing the effect of metronidazole. Both the fdxN and rnf mutants had higher growth yields in the presence of metronidazole than the wild type, suggesting that these mutants contained lower amounts of reduced ferredoxins.

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DNA sequence and genetic analysis of the Rhodobacter capsulatus nifENX gene region: Homology between NifX and NifB suggests involvement of NifX in processing of the iron-molybdenum cofactor

Moreno‐Vivián

Schmehl

Masepohl

et al. 1989

Mol Gen Genet

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Rhodobacter capsulatus genes homologous to Klebsiella pneumoniae nifE, nifN and nifX were identified by DNA sequence analysis of a 4282 bp fragment of nif region A. Four open reading frames coding for a 51,188 (NifE), a 49,459 (NifN), a 17,459 (NifX) and a 17,472 (ORF4) dalton protein were detected. A typical NifA activated consensus promoter and two imperfect putative NifA binding sites were located in the 377 bp sequence in front of the nifE coding region. Comparison of the deduced amino acid sequences of R. capsulatus NifE and NifN revealed homologies not only to analogous gene products of other organisms but also to the alpha and beta subunits of the nitrogenase iron-molybdenum protein. In addition, the R. capsulatus nifE and nifN proteins shared considerable homology with each other. The map position of nifX downstream of nifEN corresponded in R. capsulatus and K. pneumoniae and the deduced molecular weights of both proteins were nearly identical. Nevertheless, R. capsulatus NifX was more related to the C-terminal end of NifY from K. pneumoniae than to NifX. A small domain of approximately 33 amino acid residues showing the highest degree of homology between NifY and NifX was also present in all nifB proteins analyzed so far. This homology indicated an evolutionary relationship of nifX, nifY and nifB and also suggested that NifX and NifY might play a role in maturation and/or stability of the iron-molybdenum cofactor. The open reading frame (ORF4) downstream of nifX in R. capsulatus is also present in Azotobacter vinelandii but not in K. pneumoniae.(ABSTRACT TRUNCATED AT 250 WORDS)

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Mapping and characterization of the promoter elements of the regulatory nif genes rpoN, nifA1 and nifA2 in Rhodobacter capsulatus

Preker

Hübner

Schmehl

et al. 1992

Molecular Microbiology

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The promoter elements responsible for the expression of the regulatory nif genes rpoN, nifA1 and nifA2 of Rhodobacter capsulatus were mapped by exonuclease-III-mediated deletions and by primer extension analysis. The rpoN promoter maps 600 bp upstream of rpoN and has the characteristic features of a -24/-12 promoter. The upstream activator sequence (UAS) displays two mismatches with the NIFA consensus sequence and is located 37 bp upstream of a perfect -24/-12 promoter element. The spacing and/or the helical phasing of these two promotor elements was found to be important for promoter function. In addition, an UAS half-site may contribute to optimal promoter function. The rpoN UAS can partially substitute for the UAS of the nifE promoter. An open reading frame with homology to Klebsiella pneumoniae NIFU was identified between the rpoN promoter and rpoN and termed nifU2 since another nifU-like gene (nifU1) is located in a conventional nifUSVW operon in nif region A. Thus, rpoN, encoding an alternative sigma factor for RNA polymerase, is cotranscribed with a nifU analogous gene from an rpoN-dependent promoter. Mapping of the promoter elements involved in the expression of nifA copy 1 and copy 2 identified a novel promoter type. A conserved distal promoter element is likely to represent the binding site of NTRC in R. capsulatus. The DNA region preceding the mapped 5' ends of the nifA transcripts displays much less homology. The distance between the distal and proximal elements is about 100 bp.

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Functional analysis of the cysteine motifs in the ferredoxin-like protein FdxN ofRhizobium meliloti involved in symbiotic nitrogen fixation

et al. 1992

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The Rhizobium meliloti fdxN gene, which is part of the nifA-nifB-fdxN operon, is absolutely required for symbiotic nitrogen fixation. The deduced sequence of the FdxN protein is characterized by two cysteine motifs typical of bacterial-type ferredoxins. The Fix-phenotype of an R. meliloti fdxN::[Tc] mutant could be rescued by the R. leguminosarum fdxN gene, whereas no complementation was observed with nif-associated genes encoding ferredoxins from Bradyrhizobium japonicum, Azotobacter vinelandii, A. chroococcum and Rhodobacter capsulatus. In addition to these heterologous genes, several R. meliloti fdxN mutant genes constructed by site-directed mutagenesis were analyzed. Not only a cysteine residue within the second cysteine motif (position 42), which is known to coordinate the Fe-S cluster in homologous proteins, but also a cysteine located down-stream of this motif (position 61), was found to be essential for the activity of the R. meliloti FdxN protein. 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. In contrast to bacterial-type ferredoxins, which contain two identical cysteine motifs of the form C-X2-C-X2-C-X3-C, nif-associated ferredoxins, including R. meliloti FdxN, are characterized by two different cysteine motifs. Six "additional" amino acids separate the second (Cys42) and the third cysteine (Cys51) in the C-terminal motif (C-X2-C-X8-C-X3-C).(ABSTRACT TRUNCATED AT 250 WORDS)

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Some Chemical Studies of the Female Reproductive Tract and Seminal Plasma of the Male Turkey and Their Relationship to Fertility

et al. 1971

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Manfred Schmehl

Identification of a new class of nitrogen fixation genes in Rhodobacter capsalatus: a putative membrane complex involved in electron transport to nitrogenase

DNA sequence and genetic analysis of the Rhodobacter capsulatus nifENX gene region: Homology between NifX and NifB suggests involvement of NifX in processing of the iron-molybdenum cofactor

Mapping and characterization of the promoter elements of the regulatory nif genes rpoN, nifA1 and nifA2 in Rhodobacter capsulatus

Functional analysis of the cysteine motifs in the ferredoxin-like protein FdxN ofRhizobium meliloti involved in symbiotic nitrogen fixation

Some Chemical Studies of the Female Reproductive Tract and Seminal Plasma of the Male Turkey and Their Relationship to Fertility

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