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Tatjana P. Tourova - One of the best experts on this subject based on the ideXlab platform.
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Correspondence
2013Co-Authors: Elizaveta M. Spiridonova, Ivan A. Berg, Natalia V. Slobodova, Eugenia S. Boulygina, Dimitry Yu. Sorokin, Tatjana P. TourovaAbstract:Phylogeny and evolution of the family Ectothiorhodospiraceae based on comparison of 16S rRNA, cbbL and nifH gene sequence
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diversity of rubisco and atp citrate lyase genes in soda lake sediments
FEMS Microbiology Ecology, 2011Co-Authors: Tatjana P. Tourova, O. L. Kovaleva, Tatjana V. KolganovaAbstract:Sediments from six soda lakes of the Kulunda Steppe (Altai, Russia) and from hypersaline alkaline lakes of Wadi Natrun (Egypt) were analyzed for the presence of cbb and aclB genes encoding key enzymes Ci assimilation (RuBisCO in Calvin-Benson and ATP citrate lyase in rTCA cycles, respectively). The cbbL gene (RuBisCO form I) was found in all samples and was most diverse, while the cbbM (RuBisCO form II) and aclB were detected only in few samples and with a much lower diversity. The cbbL libraries from hypersaline lakes were dominated by members of the extremely haloalkaliphilic sulfur-oxidizing Ectothiorhodospiraceae, i.e. the chemolithotrophic Thioalkalivibrio and the phototrophic Halorhodospira. In the less saline soda lakes from the Kulunda Steppe, the cbbL gene comprised up to ten phylotypes with a domination of members of a novel phototrophic Chromatiales lineage. The cbbM clone libraries consisted of two major unidentified lineages probably belonging to chemotrophic sulfur-oxidizing Gammaproteobacteria. One of them, dominating in the haloalkaline lakes from Wadi Natrun, was related to a cbbM phylotype detected previously in a hypersaline lake with a neutral pH, and another, dominating in lakes from the Kulunda Steppe, was only distantly related to the Thiomicrospira cluster. The aclB sequences detected in two samples from the Kulunda Steppe formed a single, deep branch in the Epsilonproteobacteria, distantly related to Arcobacter sulfidicus.
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Methylohalomonas lacus gen. nov., sp. nov. and Methylonatrum kenyense gen. nov., sp. nov., methylotrophic gammaproteobacteria from hypersaline lakes
International Journal of Systematic and Evolutionary Microbiology, 2007Co-Authors: Yuri A. Trotsenko, Tatjana P. Tourova, Nina V. Doronina, Erwin A. Galinski, Tatjana V. KolganovaAbstract:Aerobic enrichment at 4 M NaCl, pH 7.5, with methanol as carbon and energy source from sediments of hypersaline chloride–sulfate lakes in Kulunda Steppe (Altai, Russia) resulted in the isolation of a moderately halophilic and obligately methylotrophic bacterium, strain HMT 1T. The bacterium grew with methanol and methylamine within a pH range of 6.8–8.2 with an optimum at pH 7.5 and at NaCl concentrations of 0.5–4 M with an optimum at 2 M. In addition to methanol and methylamine, it can oxidize ethanol, formate, formaldehyde and dimethylamine. Carbon is assimilated via the serine pathway. The main compatible solute is glycine betaine. 16S rRNA gene sequence analysis placed the isolate as a new lineage in the family Ectothiorhodospiraceae (Gammaproteobacteria). It is proposed, therefore, to accommodate this bacterium within a novel genus and species, Methylohalomonas lacus gen. nov., sp. nov., with HMT 1T (=DSM 15733T =NCCB 100208T =UNIQEM U237T) as the type strain. Two strains were obtained in pure culture from sediments of soda lake Magadi in Kenya and the Kulunda Steppe (Russia) on a mineral medium at pH 10 containing 0.6 M total Na+ using methanol as a substrate. Strain AMT 1T was enriched with methanol, while strain AMT 3 originated from an enrichment culture with CO. The isolates are restricted facultative methylotrophs, capable of growth with methanol, formate and acetate as carbon and energy sources. With methanol, the strains grew within a broad salinity range from 0.3 to 3.5–4 M total Na+, with an optimum at 0.5–1 M. The pH range for growth was between 8.3 and 10.5, with an optimum at pH 9.5, which characterized the soda lake isolates as obligate haloalkaliphiles. Carbon is assimilated autotrophically via the Calvin–Benson cycle. Sequence analysis of the gene coding for the key enzyme RuBisCO demonstrated that strain AMT 1T possessed a single cbbL gene of the ‘green’ form I, clustering with members of the family Ectothiorhodospiraceae. Analysis of the 16S rRNA gene sequence showed that strains AMT 1T and AMT 3 belong to a single species that forms a separate lineage within the family Ectothiorhodospiraceae. On the basis of phenotypic and genetic data, the novel haloalkaliphilic methylotrophs are described as representing a novel genus and species, Methylonatrum kenyense gen. nov., sp. nov. (type strain AMT 1T =DSM 15732T =NCCB 100209T =UNIQEM U238T).
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Phylogeny and evolution of the family Ectothiorhodospiraceae based on comparison of 16S rRNA, cbbL and nifH gene sequences.
International Journal of Systematic and Evolutionary Microbiology, 2007Co-Authors: Tatjana P. Tourova, Elizaveta M. Spiridonova, Ivan A. Berg, Natalia V. Slobodova, Eugenia S. BoulyginaAbstract:The occurrence of genes encoding nitrogenase and ribulose-1,5-bisphosphate carboxylase/oxygenase (RubisCO) was investigated in the members of the family Ectothiorhodospiraceae. This family forms a separate phylogenetic lineage within the Gammaproteobacteria according to 16S rRNA gene sequence analysis and mostly includes photo- and chemoautotrophic halophilic and haloalkaliphilic bacteria. The cbbL gene encoding the large subunit of ‘green-like’ form I RubisCO was found in all strains, except the type strains of Alkalispirillum mobile and Arhodomonas aquaeolei. The nifH gene encoding nitrogenase reductase was present in all investigated species of the phototrophic genera Ectothiorhodospira, Halorhodospira and Thiorhodospira, but not of the genus Ectothiorhodosinus. Unexpectedly, nifH fragments were also obtained for the chemotrophic species Thioalkalispira microaerophila and Alkalilimnicola halodurans, for which diazotrophic potential has not previously been assumed. The cbbL-, nifH- and 16S rRNA gene-based trees were not highly congruent in their branching patterns since, in the ‘RubisCO’ and ‘nitrogenase’ trees, representatives of the Ectothiorhodospiraceae are divided in a number of broadly distributed clusters and branches. However, the data obtained may be regarded as evidence of the monophyletic origin of the cbbL and nifH genes in most species within the family Ectothiorhodospiraceae and mainly corresponded to the current taxonomic structure of this family. The cbbL phylogeny of the chemolithoautotrophic sulfur-oxidizers Thioalkalivibrio nitratireducens and Thioalkalivibrio paradoxus and the nitrifier Nitrococcus mobilis deviated significantly from the 16S-rRNA gene-based phylogeny. These species clustered with one of the duplicated cbbL genes of the purple sulfur bacterium Allochromatium vinosum, a member of the family Chromatiaceae.
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Diversity of culturable halophilic sulfur-oxidizing bacteria in hypersaline habitats.
Microbiology, 2006Co-Authors: Tatjana P. Tourova, Anatoly M. LysenkoAbstract:Unexpectedly high culturable diversity of moderately and extremely halophilic obligately chemolithoautotrophic sulfur-oxidizing bacteria (SOB) was discovered in the sediments of various hypersaline habitats, including chloride-sulfate lakes in Mongolia, Russia and Ukraine, a sea saltern in Slovenia and a deep-sea salt brine from the Mediterranean. Six different groups of halophilic SOB, including four new genera, all belonging to the Gammaproteobacteria, were found. Two groups of moderately halophilic strictly aerobic SOB dominated at 2 M NaCl, including representatives of the genus Halothiobacillus (in fully aerobic conditions) and Thiomicrospira (in micro-oxic conditions). Under denitrifying conditions at 2 M NaCl, a group of moderately halophilic and facultatively anaerobic SOB was selected, capable of complete denitrification of nitrate. The group represents a new genus with closest relatives among as yet undescribed marine thiodenitrifying isolates. With thiocyanate as a substrate, an enrichment culture at 2 M NaCl yielded a pure culture of moderately halophilic SOB capable of aerobic growth with thiocyanate and thiosulfate at up to 4 M NaCl. Furthermore, this bacterium also grew anaerobically using nitrite as electron acceptor. It formed a new lineage distantly related to the genus Thiomicrospira. Enrichments at 4 M NaCl resulted in the domination of two different, previously unknown, groups of extremely halophilic SOB. Under oxic conditions, they were represented by strictly aerobic spiral-shaped bacteria, related to the Ectothiorhodospiraceae, while under denitrifying conditions a group of facultatively anaerobic nitrate-reducing bacteria with long rod-shaped cells was selected, distantly related to the genus Acidithiobacillus.
David S. Holmes - One of the best experts on this subject based on the ideXlab platform.
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Reclassification of 'Thiobacillus prosperus' Huber and Stetter 1989 as Acidihalobacter prosperus gen. nov., sp. nov., a member of the family Ectothiorhodospiraceae.
International journal of systematic and evolutionary microbiology, 2015Co-Authors: Juan Pablo Cárdenas, Rodrigo Ortiz, Paul R. Norris, Elizabeth L.j. Watkin, David S. HolmesAbstract:Analysis of phylogenomic metrics of a recently released draft genome sequence of the halotolerant, acidophile ‘Thiobacillus prosperus’ DSM 5130 indicates that it is not a member of the genus Thiobacillus within the class Betaproteobacteria as originally proposed. Based on data from 16S rRNA gene phylogeny, and analyses of multiprotein phylogeny and average nucleotide identity (ANI), we show that it belongs to a new genus within the family Ectothiorhodospiraceae, for which we propose the name Acidihalobacter gen. nov. In accordance, it is proposed that ‘Thiobacillus prosperus’ DSM 5130 be named Acidihalobacter prosperus gen. nov., sp. nov. DSM 5130T ( = JCM 30709T) and that it becomes the type strain of the type species of this genus.
Manfredo J. Seufferheld - One of the best experts on this subject based on the ideXlab platform.
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Halopeptonella vilamensis gen. nov, sp. nov., a halophilic strictly aerobic bacterium of the family Ectothiorhodospiraceae
Extremophiles, 2016Co-Authors: Rodolfo Javier Menes, Claudia Elizabeth Viera, María Eugenia Farías, Manfredo J. SeufferheldAbstract:A Gram-negative, halophilic, heterotrophic, rod-shaped, non-spore-forming bacterium (SV525^T) was isolated from the sediment of a hypersaline lake located at 4600 m above sea level (Laguna Vilama, Argentina). Strain SV525^T was strictly aerobic and formed pink-to-magenta colonies. Growth occurred at 10–35 °C (optimum 25–30 °C), at pH levels 6.0–8.5 (optimum 7.0) and at NaCl concentrations of 7.5–25 % (w/v) with an optimum at 10–15 % (w/v). The strain required sodium and magnesium but not potassium ions for growth. Grows with tryptone, or Bacto Peptone as sole carbon and energy source and requires yeast extract for growth. It produced catalase and oxidase. The predominant ubiquinone was Q-8 and the major fatty acids comprised C_18:1 ω 7c, C_16:0 and C_18:0. The DNA G+C content was 60.4 mol% and its polar lipids consisted of diphosphatidylglycerol, phosphatidylglycerol, phosphatidylethanolamine and a phosphoglycolipid. Phylogenetic analysis based on 16S rRNA gene indicated that strain SV525^T belongs to the family Ectothiorhodospiraceae within the class Gammaproteobacteria . On the basis of phylogenetic and phenotypic data, SV525^T represents a novel genus and species, for which the name Halopeptonella vilamensis gen. nov., sp. nov. is proposed. The type strain is SV525^T (=DSM 21056^T =JCM 16388^T =NCIMB 14596^T).
Tatjana V. Kolganova - One of the best experts on this subject based on the ideXlab platform.
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diversity of rubisco and atp citrate lyase genes in soda lake sediments
FEMS Microbiology Ecology, 2011Co-Authors: Tatjana P. Tourova, O. L. Kovaleva, Tatjana V. KolganovaAbstract:Sediments from six soda lakes of the Kulunda Steppe (Altai, Russia) and from hypersaline alkaline lakes of Wadi Natrun (Egypt) were analyzed for the presence of cbb and aclB genes encoding key enzymes Ci assimilation (RuBisCO in Calvin-Benson and ATP citrate lyase in rTCA cycles, respectively). The cbbL gene (RuBisCO form I) was found in all samples and was most diverse, while the cbbM (RuBisCO form II) and aclB were detected only in few samples and with a much lower diversity. The cbbL libraries from hypersaline lakes were dominated by members of the extremely haloalkaliphilic sulfur-oxidizing Ectothiorhodospiraceae, i.e. the chemolithotrophic Thioalkalivibrio and the phototrophic Halorhodospira. In the less saline soda lakes from the Kulunda Steppe, the cbbL gene comprised up to ten phylotypes with a domination of members of a novel phototrophic Chromatiales lineage. The cbbM clone libraries consisted of two major unidentified lineages probably belonging to chemotrophic sulfur-oxidizing Gammaproteobacteria. One of them, dominating in the haloalkaline lakes from Wadi Natrun, was related to a cbbM phylotype detected previously in a hypersaline lake with a neutral pH, and another, dominating in lakes from the Kulunda Steppe, was only distantly related to the Thiomicrospira cluster. The aclB sequences detected in two samples from the Kulunda Steppe formed a single, deep branch in the Epsilonproteobacteria, distantly related to Arcobacter sulfidicus.
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Methylohalomonas lacus gen. nov., sp. nov. and Methylonatrum kenyense gen. nov., sp. nov., methylotrophic gammaproteobacteria from hypersaline lakes
International Journal of Systematic and Evolutionary Microbiology, 2007Co-Authors: Yuri A. Trotsenko, Tatjana P. Tourova, Nina V. Doronina, Erwin A. Galinski, Tatjana V. KolganovaAbstract:Aerobic enrichment at 4 M NaCl, pH 7.5, with methanol as carbon and energy source from sediments of hypersaline chloride–sulfate lakes in Kulunda Steppe (Altai, Russia) resulted in the isolation of a moderately halophilic and obligately methylotrophic bacterium, strain HMT 1T. The bacterium grew with methanol and methylamine within a pH range of 6.8–8.2 with an optimum at pH 7.5 and at NaCl concentrations of 0.5–4 M with an optimum at 2 M. In addition to methanol and methylamine, it can oxidize ethanol, formate, formaldehyde and dimethylamine. Carbon is assimilated via the serine pathway. The main compatible solute is glycine betaine. 16S rRNA gene sequence analysis placed the isolate as a new lineage in the family Ectothiorhodospiraceae (Gammaproteobacteria). It is proposed, therefore, to accommodate this bacterium within a novel genus and species, Methylohalomonas lacus gen. nov., sp. nov., with HMT 1T (=DSM 15733T =NCCB 100208T =UNIQEM U237T) as the type strain. Two strains were obtained in pure culture from sediments of soda lake Magadi in Kenya and the Kulunda Steppe (Russia) on a mineral medium at pH 10 containing 0.6 M total Na+ using methanol as a substrate. Strain AMT 1T was enriched with methanol, while strain AMT 3 originated from an enrichment culture with CO. The isolates are restricted facultative methylotrophs, capable of growth with methanol, formate and acetate as carbon and energy sources. With methanol, the strains grew within a broad salinity range from 0.3 to 3.5–4 M total Na+, with an optimum at 0.5–1 M. The pH range for growth was between 8.3 and 10.5, with an optimum at pH 9.5, which characterized the soda lake isolates as obligate haloalkaliphiles. Carbon is assimilated autotrophically via the Calvin–Benson cycle. Sequence analysis of the gene coding for the key enzyme RuBisCO demonstrated that strain AMT 1T possessed a single cbbL gene of the ‘green’ form I, clustering with members of the family Ectothiorhodospiraceae. Analysis of the 16S rRNA gene sequence showed that strains AMT 1T and AMT 3 belong to a single species that forms a separate lineage within the family Ectothiorhodospiraceae. On the basis of phenotypic and genetic data, the novel haloalkaliphilic methylotrophs are described as representing a novel genus and species, Methylonatrum kenyense gen. nov., sp. nov. (type strain AMT 1T =DSM 15732T =NCCB 100209T =UNIQEM U238T).
Klaas J. Hellingwerf - One of the best experts on this subject based on the ideXlab platform.
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Alkalispirillum mobile gen. nov., spec. nov., an alkaliphilic non-phototrophic member of the Ectothiorhodospiraceae.
Archives of Microbiology, 2001Co-Authors: Micha J.a. Rijkenberg, Remco Kort, Klaas J. HellingwerfAbstract:From cultures of the anoxygenic phototroph Halorhodospira halophila SL-1, an aerobic, gram-negative spirillum was isolated. This moderately halophilic, alkaliphilic bacterium was motile by means of a single polar flagellum. It is described here as Alkalispirillum mobile gen. nov., spec. nov. Phylogenetic analysis of the Alkalispirillum mobile 16S rRNA gene led to its classification in the gamma-subclass of the Proteobacteria, as it appears closely related to phototrophic purple sulfur bacteria of the genera Ectothiorhodospira and Halorhodospira. Surprisingly, A. mobile is an obligate aerobe. The organism grows optimally with a number of carboxylic acids (such as sodium acetate) as carbon source, at 2% (i.e. approximately 0.34 M) sodium chloride, at pH 9-10, and at temperatures ranging from 35 to 38 degrees C. The dominant cellular fatty acids of Alkalispirillum mobile are C12:0, C16:0, C18:1cis11, and C18:0; its G+C content is 66.2+/-0.5 mol%.
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Abundance, subunit composition, redox properties, and catalytic activity of the cytochrome bc1 complex from alkaliphilic and halophilic, photosynthetic members of the family Ectothiorhodospiraceae.
Journal of Bacteriology, 1993Co-Authors: Tina Leguijt, Wim Crielaard, P. W. Engels, Simon P. J. Albracht, Klaas J. HellingwerfAbstract:Ubiquinol-cytochrome c oxidoreductase (cytochrome bc1) complexes were demonstrated to be present in the membranes of the alkaliphilic and halophilic purple sulfur bacteria Ectothiorhodospira halophila, Ectothiorhodospira mobilis, and Ectothiorhodospira shaposhnikovii by protoheme extraction, immunoblotting, and electron paramagnetic resonance spectroscopy. The gy values of the Rieske [2Fe-2S] clusters observed in membranes of E. mobilis and E. halophila were 1.895 and 1.910, respectively. In E. mobilis membranes, the cytochrome bc1 complex was present in a stoichiometry of approximately 0.2 per reaction center. This complex was isolated and characterized. It contained four prosthetic groups: low-potential cytochrome b (cytochrome bL; Em = -142 mV), high-potential cytochrome b (cytochrome bH; Em = 116 mV), cytochrome c1 (Em = 341 mV), and a Rieske iron-sulfur cluster. The absorbance spectrum of cytochrome bL displayed an asymmetric alpha-band with a maximum at 564 nm and a shoulder at 559 nm. The alpha bands of cytochrome bH and cytochrome c1 peaked at 559.5 and 553 nm, respectively. These prosthetic groups were associated with three different polypeptides: cytochrome b, cytochrome c1, and the Rieske iron-sulfur protein, with apparent molecular masses of 43, 30, and 21 kDa, respectively. No evidence for the presence of a fourth subunit was obtained. Maximal ubiquinol-cytochrome c oxidoreductase activity of the purified complex was observed at pH 8; the turnover rate was 57 mol of cytochrome c reduced.(mol of cytochrome c1)-1.s-1. The complex showed a strikingly low sensitivity towards typical inhibitors of cytochrome bc1 complexes.
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characterization of reaction center antenna complexes from bacteriochlorophyll a containing Ectothiorhodospiraceae
Biochimica et Biophysica Acta, 1991Co-Authors: Tina Leguijt, Klaas J. HellingwerfAbstract:Pigment-protein complexes have been isolated from three bacteriochlorophyll- a -containing Ectothiorhodospira species: E. mobilis, E. shaposhnikovii and E. halophila , using detergent solubilisation of photosynthetic membranes and sucrose-density gradient centrifugation. This isolation procedure yields pure LHII complexes and reaction centers with either one or both antenna complexes attached (i.e., RC/LHI and RC/LHI/LHII complexes). The RC/LHI/LHII complexes consist of three reaction center polypeptides, H (35 kDa), M (34 kDa), and L (26.5 kDa), plus two LHI and two LHII antenna polypeptides. In photosynthetic membranes of the three Ectothiorhodospira species two major types of heme c are present, of low (25 mV) and high (297 mV) midpoint potential, respectively. These heme groups belong to separate cytochromes. During solubilisation and purification, no loss of the H subunit from the reaction centers is observed. However, the reaction centers do lose their c -type cytochromes. The high-potential cytochrome c is completely lost during solubilisation of RC complexes from photosynthetic membranes, while the low-potential cytochrome is largely lost during isolation of RC/LHI complexes. The residual amount of this low-potential cytochrome, associated with the RC/LHI complexes, varies with the salt concentration used during the isolation, but remains below 0.2 mol heme c per mol reaction center. This is less than 20% of the amount originally present in photosynthetic membranes.
