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1.
Analysis of genes encoding an alternative nitrogenase in the archaeon Methanosarcina barkeri 227
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Methanosarcina barkeri 227 possesses two clusters of genes potentially encoding nitrogenases. We have previously demonstrated that one cluster, called nif2, is expressed under molybdenum (Mo)-sufficient conditions, and the deduced amino acid sequences for nitrogenase structural genes in that cluster most closely resemble those for the Mo nitrogenase of the gram-positive eubacterium Clostridium pasteurianum. The previously cloned nifH1 from M. barkeri shows phylogenetic relationships with genes encoding components of eubacterial Mo-independent eubacterial alternative nitrogenases and other methanogen nitrogenases. In this study, we cloned and sequenced nifD1 and part of nifK1 from M. barkeri 227. The deduced amino acid sequence encoded by nifD1 from M. barkeri showed great similarity with vnfD gene products from vanadium (V) nitrogenases, with an 80% identity at the amino acid level with the vnfD gene product from Anabaena variabilis. Moreover, there was a small open reading frame located between nifD1 and nifK1 with clear homology to vnfG, a hallmark of eubacterial alternative nitrogenases. Stimulation of diazotrophic growth of M. barkeri 227 by V in the absence of Mo was demonstrated. The unusual complement of nif genes in M. barkeri 227, with one cluster resembling that from a gram-positive eubacterium and the other resembling a eubacterial V nitrogenase gene cluster, suggests horizontal genetic transfer of those genes. 相似文献
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Nucleotide sequence of the gene encoding the nitrogenase iron protein of Thiobacillus ferrooxidans. 总被引:9,自引:5,他引:4
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I M Pretorius D E Rawlings E G O''''Neill W A Jones R Kirby D R Woods 《Journal of bacteriology》1987,169(1):367-370
The DNA sequence was determined for the cloned Thiobacillus ferrooxidans nifH and part of the nifD genes. A putative T. ferrooxidans nifH promoter was identified whose sequences showed perfect consensus with those of the Klebsiella pneumoniae nif promoter. Two putative consensus upstream activator sequences were also identified. The amino acid sequence was deduced from the DNA sequence. In a comparison of nifH DNA sequences from T. ferrooxidans and eight other nitrogen-fixing microbes, a Rhizobium sp. isolated from Parasponia andersonii showed the greatest homology (74%) and Clostridium pasteurianum (nifH 1) showed the least homology (54%). In a comparison of the amino acid sequences of the Fe proteins, the Rhizobium sp. and Rhizobium japonicum showed the greatest homology (both 86%) and C. pasteurianum (nifH 1 gene product) demonstrated the least homology (56%) to the T. ferrooxidans Fe protein. 相似文献
5.
Hierarchical clustering and similarity coefficients of pairwise alignments of the published nucleotide sequences of 27nifH genes suggest thatnif genes are as ancient as the archaebacteria and clostridia. The positions ofnifHl ofMethanococcus thermolithotrophicus, nifH3 ofClostridium pasteurianum, nifH3 ofAzotobacter vinelandii andnifH ofFrankia suggest that a variety of lateral transfers may have occurred during evolution ofnifH gene. The genes for type 3 nitrogenase ofA. vinelandii may have diverged early from methanogens and clostridia. A high similarity coefficient with the derived amino acid sequence
of type 3 nitrogenase suggests the presence of a functionally similar enzyme inC. pasteurianum. The type 2 nitrogenase genenifH2 of azotobacters seems to have originated recently from the genenifHl for conventional type I nitrogenase. RhizobialnifH genes comprise two closely related but discrete clusters that are in consonance with the plasmid or chromosomal location
ofnif genes. The chromosomal and plasmid locatednifH of rhizobia seem to have evolved independently but contemporaneously. 相似文献
6.
Structural features of multiple nifH-like sequences and very biased codon usage in nitrogenase genes of Clostridium pasteurianum. 总被引:13,自引:7,他引:6
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The structural gene (nifH1) encoding the nitrogenase iron protein of Clostridium pasteurianum has been cloned and sequenced. It is located on a 4-kilobase EcoRI fragment (cloned into pBR325) that also contains a portion of nifD and another nifH-like sequence (nifH2). C. pasteurianum nifH1 encodes a polypeptide (273 amino acids) identical to that of the isolated iron protein, indicating that the smaller size of the C. pasteurianum iron protein does not result from posttranslational processing. The 5' flanking region of nifH1 or nifH2 does not contain the nif promoter sequences found in several gram-negative bacteria. Instead, a sequence resembling the Escherichia coli consensus promoter (TTGACA-N17-TATAAT) is present before C. pasteurianum nifH2, and a TATAAT sequence is present before C pasteurianum nifH1. Codon usage in nifH1, nifH2, and nifD (partial) is very biased. A preference for A or U in the third position of the codons is seen. nifH2 could encode a protein of 272 amino acid residues, which differs from the iron protein (nifH1 product) in 23 amino acid residues (8%). Another nifH-like sequence (nifH3) is located on a nonadjacent EcoRI fragment and has been partially sequenced. C. pasteurianum nifH2 and nifH3 may encode proteins having several amino acids that are conserved in other proteins but not in C. pasteurianum iron protein, suggesting a possible role for the multiple nifH-like sequences of C. pasteurianum in the evolution of nifH. Among the nine sequenced iron proteins, only the C. pasteurianum protein lacks a conserved lysine residue which is near the extended C terminus of the other iron proteins. The absence of this positive charge in the C. pasteurianum iron protein might affect the cross-reactivity of the protein in heterologous systems. 相似文献
7.
Nucleotide sequence of the gene coding for the nitrogenase iron protein from Klebsiella pneumoniae 总被引:20,自引:0,他引:20
We report the complete DNA sequence of the Klebsiella pneumoniae nifH gene, the gene which codes for component 2 (Fe protein or nitrogenase reductase) of the nitrogenase enzyme complex. The amino acid sequence of the K. pneumoniae nitrogenase Fe protein is deduced from the DNA sequence. The K. pneumoniae Fe protein contains 292 amino acids, has a Mr = 31,753, and contains 9 cysteine residues. We compare the amino acid sequence of the K. pneumoniae protein with available amino acid sequence data on nitrogenase Fe proteins from two other species, Clostridium pasteurianum and Azotobacter vinelandii. The C. pasteurianum Fe protein, for which the complete sequence is known, shows 67% homology with the K. pneumoniae Fe protein. Extensive regions of strong conservation (90-95%) are found, while other regions show relatively poor conservation (30-35%). It is suggested that these strongly conserved regions are of special importance to the function of this enzyme, and the findings are discussed in the light of evolutionary theories on the origin of nif genes. 相似文献
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The complete nucleotide sequence of the nifD gene encoding the alpha subunit of component I of nitrogenase from Frankia alni strain ArI3 was determined. The coding region is 1,458 bp in length and encodes a polypeptide of 486 residues with a predicted molecular weight of 53,500. Phylogenetic inferences with 12 complete published nifD sequences were drawn using a variety of approaches. Frankia nifD clusters with proteobacteria rather than with Clostridium pasteurianum, the other Gram-positive bacterium studied. Extant eubacterial nif genes seem to have at least three distinct evolutionary origins as a result of ancient gene duplications. Within the Gram-positive bacterial phylum, functional nif genes descend from different duplicates. 相似文献
10.
Coumarin and quinolone action in archaebacteria: evidence for the presence of a DNA gyrase-like enzyme. 总被引:6,自引:4,他引:2
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The action of novobiocin and coumermycin (two coumarins which interact with the gyrB subunit of eubacterial DNA gyrase) and ciprofloxacin (a fluoroquinolone which interacts with the gyrA subunit of DNA gyrase) was tested on several archaebacteria, including five methanogens, two halobacteria, and a thermoacidophile. Most strains were sensitive to doses of coumarins (0.02 to 10 micrograms/ml) which specifically inhibit DNA gyrase in eubacteria. Ciprofloxacin inhibited growth of the haloalkaliphilic strain Natronobacterium gregoryi and of the methanogen Methanosarcina barkeri. In addition, ciprofloxacin partly relieved the sensitivity to coumarins (and vice versa). Novobiocin inhibited DNA replication in Halobacterium halobium rapidly and specifically. Topological analysis has shown that the 1.7-kilobase plasmid from Halobacterium sp. strain GRB is negatively supercoiled; this plasmid was relaxed after novobiocin treatment. These results support the existence in archaebacteria of a coumarin and quinolone target related to eubacterial DNA gyrase. 相似文献
11.
M L Kalmokoff T M Karnauchow K F Jarrell 《Biochemical and biophysical research communications》1990,167(1):154-160
Methanococcus voltae produces two flagellins of molecular weight 31,000 and 33,000. Amino acid analysis as well as peptide mapping with cyanogen bromide, chymotrypsin and Staphylococcus aureus V-8 protease indicates that the two flagellins are distinct. N-terminal sequencing of the 31,000 Mc. voltae flagellin as well as the 24,000 and 25,000 molecular weight flagellins of Methanospirillum hungatei GP1 shows an extensive homology with the reported N-terminus of the flagellins from Halobacterium halobium, deduced from the nucleotide sequence of the cloned genes. However, the N-termini of all three sequenced methanogen flagellins lack a terminal methionine and start at position 13 from the N-terminus of H. halobium flagellins. This initial 12 amino acid stretch may be a leader peptide which is subsequently cleaved to generate the mature flagellin, which could suggest flagellar assembly in archaebacteria occurs by a mechanism distinct from that in eubacteria. The high degree of conservation of the N-terminus of the flagellins from Mc. voltae, Msp. hungatei and H. halobium suggests an important role for this sequence, and that the archaebacteria share a common mechanism for flagellar biosynthesis. 相似文献
12.
Comparative evaluation of gene expression in archaebacteria 总被引:26,自引:0,他引:26
W Zillig P Palm W D Reiter F Gropp G Pühler H P Klenk 《European journal of biochemistry》1988,173(3):473-482
13.
Esser C Ahmadinejad N Wiegand C Rotte C Sebastiani F Gelius-Dietrich G Henze K Kretschmann E Richly E Leister D Bryant D Steel MA Lockhart PJ Penny D Martin W 《Molecular biology and evolution》2004,21(9):1643-1660
Analyses of 55 individual and 31 concatenated protein data sets encoded in Reclinomonas americana and Marchantia polymorpha mitochondrial genomes revealed that current methods for constructing phylogenetic trees are insufficiently sensitive (or artifact-insensitive) to ascertain the sister of mitochondria among the current sample of eight alpha-proteobacterial genomes using mitochondrially-encoded proteins. However, Rhodospirillum rubrum came as close to mitochondria as any alpha-proteobacterium investigated. This prompted a search for methods to directly compare eukaryotic genomes to their prokaryotic counterparts to investigate the origin of the mitochondrion and its host from the standpoint of nuclear genes. We examined pairwise amino acid sequence identity in comparisons of 6,214 nuclear protein-coding genes from Saccharomyces cerevisiae to 177,117 proteins encoded in sequenced genomes from 45 eubacteria and 15 archaebacteria. The results reveal that approximately 75% of yeast genes having homologues among the present prokaryotic sample share greater amino acid sequence identity to eubacterial than to archaebacterial homologues. At high stringency comparisons, only the eubacterial component of the yeast genome is detectable. Our findings indicate that at the levels of overall amino acid sequence identity and gene content, yeast shares a sister-group relationship with eubacteria, not with archaebacteria, in contrast to the current phylogenetic paradigm based on ribosomal RNA. Among eubacteria and archaebacteria, proteobacterial and methanogen genomes, respectively, shared more similarity with the yeast genome than other prokaryotic genomes surveyed. 相似文献
14.
Grayna E. Sroga Ulf Landegren Birgitta Bergman Maria Lagerström-Fermér 《FEMS microbiology letters》1996,136(2):137-145
Abstract A modified capture polymerase chain reaction (CPCR) technique was used to isolate the entire sequence of the nifH gene and its flanking regions from a natural population of Trichodesmium sp. A set of specific CPCR primers derived from a known 72-bp DNA segment of the nifH sequence permitted isolation of both the upstream and the downstream region of Trichodesmium sp. nifH . The 882-bp nifH gene presented here is the first full-length gene isolated from Trichodesmium sp. A sequence similar to a nif -like promoter was found in front of nifH . The nifH open reading frame of Trichodesmium sp. encoded 294 amino acids. Comparative analysis of the Trichodesmium sp. NifH sequence revealed strong similarity with 23 known NifH proteins. Amino acids postulated to be involved in binding of the 4Fe:4S cluster and those subjected to ADP-ribosylation were present. An open reading frame for the nifD gene was identified 189 bp downstream of nifH . A sequence similar to the consensus of the nif -like promoter was also found in front of nifD . 相似文献
15.
Lawrence C. Shimmin Celia Ramirez Alistair T. Matheson Patrick P. Dennis 《Journal of molecular evolution》1989,29(5):448-462
Summary The genes corresponding to the L10 and L12 equivalent ribosomal proteins (L10e and L12e) ofEscherichia coli have been cloned and sequenced from two widely divergent species of archaebacteria,Halobacterium cutirubrum andSulfolobus solfataricus. The deduced amino acid sequences of the L10e and L12e proteins have been compared to each other and to available eubacterial
and eucaryotic sequences. We have identified the hyman P0 protein as the eucaryotic L10e. The L10e proteins from the three
kingdoms were found to be colinear. The eubacterial L10e protein is much shorter than the archaebacterial-eucaryotic proteins
because of two large deletions, one internal and one at the carboxy terminus. The archaebacterial and eucaryotic L12e proteins
were also colinear; the eubacterial protein is homologous to the archaebacterial and eucaryotic L12e proteins, but has suffered
rearrangement through what appear to be gene fusion events. Intraspecies comparisons between L10e and L12e sequences indicate
the archaebacterial and eucaryotic L10e proteins contain a partial copy of the L12e protein fused to their carboxy terminus.
In the eubacteria most of this fusion has been removed by the carboxy terminal deletion. Within the L12e-derived region, a
26-amino acid-long internal modular sequence reiterated thrice in the archaebacterial L10e, twice in the eucaryotic L10e,
and once in the eubacterial L10e was discovered. This modular sequence also appears to be present as a single copy in all
L12e proteins and may play a role in L12e dimerization, L10e–L12e complex formation, and the function of L10e–L12e complex
in translation. From these sequence comparisons a model depicting the evolutionary progression of the L10e and L12e genes
and proteins from the primordial state to the contemporary archaebacterial, eucaryotic, and eubacterial states is presented. 相似文献
16.
Cloning of the HSP70 gene from Halobacterium marismortui: relatedness of archaebacterial HSP70 to its eubacterial homologs and a model for the evolution of the HSP70 gene. 总被引:4,自引:0,他引:4
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Heat shock induces the synthesis of a set of proteins in Halobacterium marismortui whose molecular sizes correspond to the known major heat shock proteins. By using the polymerase chain reaction and degenerate oligonucleotide primers for conserved regions of the 70-kDa heat shock protein (HSP70) family, we have successfully cloned and sequenced a gene fragment containing the entire coding sequence for HSP70 from H. marismortui. HSP70 from H. marismortui shows between 44 and 47% amino acid identity with various eukaryotic HSP70s and between 51 and 58% identity with its eubacterial and archaebacterial homologs. On the basis of a comparison of all available HSP70 sequences, we have identified a number of unique sequence signatures in this protein family that provide a clear distinction between eukaryotic organisms and prokaryotic organisms (archaebacteria and eubacteria). The archaebacterial (viz., H. marismortui and Methanosarcina mazei) HSP70s have been found to contain all of the signature sequences characteristic of eubacteria (particularly the gram-positive bacteria), which suggests a close evolutionary relationship between these groups. In addition, detailed analyses of HSP70 sequences that we have carried out have revealed a number of additional novel features of the HSP70 protein family. These include (i) the presence of an insertion of about 25 to 27 amino acids in the N-terminal quadrants of all known eukaryotic and prokaryotic HSP70s except those from archaebacteria and the gram-positive group of bacteria, (ii) significant sequence similarity in HSP70 regions comprising its first and second quadrants from organisms lacking the above insertion, (iii) highly significant similarity between a protein, MreB, of Escherichia coli and the N-terminal half of HSP70s, (iv) significant sequence similarity between the N-terminal quadrant of HSP70 (from gram-positive bacteria and archaebacteria) and the m-type thioredoxin of plant chloroplasts. To account for these and other observations, a model for the evolution of HSP70 proteins involving gene duplication is proposed. The model proposes that HSP70 from archaebacteria (H. marismortui and M. mazei) and the gram-positive group of bacteria constitutes the ancestral form of the protein and that all other HSP70s (viz., other eubacteria as well as eukaryotes) containing the insert have evolved from this ancient protein. 相似文献
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The structure and evolution of archaebacterial ribosomal RNAs 总被引:1,自引:0,他引:1
A cladistic analysis of 553 5S rRNA sequences has revealed a Ur-5S rRNA, the ancestor of all present-day 5S rRNA molecules. Previously stated characteristic differences between the eubacterial and eukaryotic molecules, namely, the length base-pairing schemes of helices D, can be used as a marker for the various archaebacterial branches. One model comprises Thermococcus, Thermoplasma, methanobacteria, and halobacteria; a second comprises the Sulfolobales; and a third is represented only by the single organism Octopus Spring species 1. A relaxed selection pressure on helix E with subsequent deletions is observed in Methanobacteriales, Methanococcales, and eubacteria. The secondary structures are supported by enzymatic digestion and chemical modification studies of the 5S rRNAs. Reconstitution of eubacterial 50S ribosomal subunits with 5S rRNA from Halobacterium and Thermoplasma has revealed 100% incorporation, while eukaryotic 5S rRNAs yielded a 50% incorporation. Relevant positions of the small-subunit rRNA are selected to answer the question of the monophyly of archaebacteria. Eight positions account for monophyly, eight for an ancestry of eubacteria with halophile methanogens and eukaryotes with eocytes (paraphyly of archaebacteria), and two for an ancestry of eubacteria with eocytes. A refinement of the neighborliness method of S. Sattath and A. Tversky resulted in a monophyly of archaebacteria when all positions are treated equally and in a paraphyly when tranversions are weighted twice over transitions. 相似文献
19.
The DNA sequence of a 359-bp fragment of nifH was determined for the heterocystous strains Anabaena sp. strain CA (ATCC 33047), Nostoc muscorum UTEX 1933, a Nostoc sp., Gloeothece sp. strain ATCC 27152, Lyngbya lagerheimii UTEX 1930, and Plectonema boryanum IU 594. Results confirmed that the DNA sequence of the 359-bp segment is sufficiently variable to distinguish cyanobacterial nifH genes from other eubacterial and arachaeobacterial nifH genes, as well as to distinguish heterocystous from nonheterocystous nifH genes. Nonheterocystous cyanobacterial nifH sequences were greater than 70 and 82% identical on the DNA and amino acid levels, respectively, whereas corresponding values for heterocystous cyanobacterial nifH sequences were 84 and 91%. The amplified nifH fragments can be used as DNA probes to differentiate between species, although there was substantial cross-reactivity between the nifH amplification products of some strains. However, an oligonucleotide designed from a sequence conserved within the heterocystous cyanobacteria hybridized primarily with the amplification product from heterocystous strains. The use of oligonucleotides designed from amplified nifH sequences shows great promise for characterizing assemblages of diazotrophs. 相似文献
20.
Phylogenetic diversity of nitrogen fixation genes in the symbiotic microbial community in the gut of diverse termites. 总被引:11,自引:0,他引:11
Nitrogen fixation by the microorganisms in the gut of termites is one of the crucial aspects of symbiosis, since termites usually thrive on a nitrogen-poor diet. The phylogenetic diversity of the nitrogen-fixing organisms within the symbiotic community in the guts of various termite species was investigated without culturing the resident microorganisms. A portion of the dinitrogenase reductase gene (nifH) was directly amplified from DNA extracted from the mixed population in the termite gut. Analysis of deduced amino acid sequences of the products of the clonally isolated nifH genes revealed the presence of diverse nifH sequences in most of the individual termite species, and their constituents were considerably different among termite species. A majority of the nifH sequences from six lower termites, which showed significant levels of nitrogen fixation activity, could be assigned to either the anaerobic nif group (consisting of clostridia and sulfur reducers) or the alternative nif methanogen group among the nifH phylogenetic groups. In the case of three higher termites, which showed only low levels of nitrogen fixation activity, a large number of the sequences were assigned to the most divergent nif group, probably functioning in some process other than nitrogen fixation and being derived from methanogenic archaea. The nifH groups detected were similar within each termite family but different among the termite families, suggesting an evolutionary trend reflecting the diazotrophic habitats in the symbiotic community. Within these phylogenetic groups, the sequences from the termites formed lineages distinct from those previously recognized in studies using classical microbiological techniques, and several sequence clusters unique to termites were found. The results indicate the presence of diverse potentially nitrogen-fixing microbial assemblages in the guts of termites, and the majority of them are as yet uncharacterized. 相似文献