灰单胞菌灰单胞菌灰单胞菌灰单胞菌灰单胞菌灰单胞菌灰单胞菌灰单胞菌11 .和carboxydohydrogenpseudomonas (ex Sanjieva and Zavarzin 1971) Meyer et al. 1980作为Afipia carboxydohydrogena梳子。11月,基于比较基因组分析。
{"title":"灰单胞菌灰单胞菌灰单胞菌灰单胞菌灰单胞菌灰单胞菌灰单胞菌灰单胞菌11 .和carboxydohydrogenpseudomonas (ex Sanjieva and Zavarzin 1971) Meyer et al. 1980作为Afipia carboxydohydrogena梳子。11月,基于比较基因组分析。","authors":"Mehdi Fatahi-Bafghi","doi":"10.1099/ijsem.0.006865","DOIUrl":null,"url":null,"abstract":"<p><p>In the present study, we conducted the whole-genome sequence analysis of <i>Pseudomonas boreopolis</i> JCM 13306<sup>T</sup> and <i>Pseudomonas carboxydohydrogena</i> DSM 1083<sup>T</sup> from the genus <i>Pseudomonas</i> for assigning taxonomic placement. Sequence analysis of the 16S rRNA gene revealed that <i>P. boreopolis</i> JCM 13306<sup>T</sup> had the highest sequence similarity to <i>Xanthomonas</i> species, with sequence similarities ranging from 97.24% to 97.92% nucleotide identity. Likewise, sequence analysis of the 16S rRNA gene exhibited <i>P. carboxydohydrogena</i> DSM 1083<sup>T</sup> with 99.36%, 99.00% and 98.93% similarity to <i>Afipia felis</i> ATCC 53690<sup>T</sup>, <i>Afipia carboxidovorans</i> ATCC 49405<sup>T</sup> and <i>Afipia clevelandensis</i> ATCC 49720<sup>T</sup>, respectively. <i>P. boreopolis</i> JCM 13306<sup>T</sup> and <i>P. carboxydohydrogena</i> DSM 1083<sup>T</sup> have indicated a distinct position in the phylogenetic (based on concatenated sequences of 81 core proteins and 16S rRNA gene) and phylogenomic trees from some type strains of the <i>Pseudomonadaceae</i> family; however, <i>P. boreopolis</i> JCM 13306<sup>T</sup> and <i>P. carboxydohydrogena</i> DSM 1083<sup>T</sup> were strongly clustered with species of the <i>Xanthomonas</i> (family <i>Lysobacteraceae</i>) and <i>Afipia</i> (family <i>Nitrobacteraceae</i>), respectively. Besides, the amino acid identity values between <i>P. boreopolis</i> JCM 13306<sup>T</sup> and the members of the <i>Pseudomonadaceae</i> family were 53.95-57.98%, as well as between <i>P. carboxydohydrogena</i> DSM 1083<sup>T</sup> and this family which were 50.43-51.41%. These values were below the cut-off level for genus demarcation (60-85%). The scores of digital DNA-DNA hybridization (70%), average nucleotide identity by blast (95-96%) and average nucleotide identity using MUMmer (96%) between <i>P. boreopolis</i> JCM 13306<sup>T</sup> and <i>P. carboxydohydrogena</i> DSM 1083<sup>T</sup>, with the members of the <i>Pseudomonadaceae</i> family, were below the threshold value for bacterial species delineation. Therefore, based on genomic and phylogenomic analysis, we propose reclassifying <i>P. boreopolis</i> JCM 13306<sup>T</sup> and <i>P. carboxydohydrogena</i> DSM 1083<sup>T</sup> as <i>Xanthomonas boreopolis</i> comb. nov. in the <i>Lysobacteraceae</i> family and <i>Afipia carboxydohydrogena</i> comb. nov. in the <i>Nitrobacteraceae</i> family, respectively.</p>","PeriodicalId":14390,"journal":{"name":"International journal of systematic and evolutionary microbiology","volume":"75 8","pages":""},"PeriodicalIF":2.0000,"publicationDate":"2025-08-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC12367434/pdf/","citationCount":"0","resultStr":"{\"title\":\"Reclassification of <i>Pseudomonas boreopolis</i> Gray and Thornton 1928 (Approved Lists 1980) as <i>Xanthomonas boreopolis</i> comb. nov. and <i>Pseudomonas carboxydohydrogena</i> (ex Sanjieva and Zavarzin 1971) Meyer <i>et al.</i> 1980 as <i>Afipia carboxydohydrogena</i> comb. nov. based on comparative genomic analysis.\",\"authors\":\"Mehdi Fatahi-Bafghi\",\"doi\":\"10.1099/ijsem.0.006865\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>In the present study, we conducted the whole-genome sequence analysis of <i>Pseudomonas boreopolis</i> JCM 13306<sup>T</sup> and <i>Pseudomonas carboxydohydrogena</i> DSM 1083<sup>T</sup> from the genus <i>Pseudomonas</i> for assigning taxonomic placement. 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Likewise, sequence analysis of the 16S rRNA gene exhibited <i>P. carboxydohydrogena</i> DSM 1083<sup>T</sup> with 99.36%, 99.00% and 98.93% similarity to <i>Afipia felis</i> ATCC 53690<sup>T</sup>, <i>Afipia carboxidovorans</i> ATCC 49405<sup>T</sup> and <i>Afipia clevelandensis</i> ATCC 49720<sup>T</sup>, respectively. <i>P. boreopolis</i> JCM 13306<sup>T</sup> and <i>P. carboxydohydrogena</i> DSM 1083<sup>T</sup> have indicated a distinct position in the phylogenetic (based on concatenated sequences of 81 core proteins and 16S rRNA gene) and phylogenomic trees from some type strains of the <i>Pseudomonadaceae</i> family; however, <i>P. boreopolis</i> JCM 13306<sup>T</sup> and <i>P. carboxydohydrogena</i> DSM 1083<sup>T</sup> were strongly clustered with species of the <i>Xanthomonas</i> (family <i>Lysobacteraceae</i>) and <i>Afipia</i> (family <i>Nitrobacteraceae</i>), respectively. Besides, the amino acid identity values between <i>P. boreopolis</i> JCM 13306<sup>T</sup> and the members of the <i>Pseudomonadaceae</i> family were 53.95-57.98%, as well as between <i>P. carboxydohydrogena</i> DSM 1083<sup>T</sup> and this family which were 50.43-51.41%. These values were below the cut-off level for genus demarcation (60-85%). The scores of digital DNA-DNA hybridization (70%), average nucleotide identity by blast (95-96%) and average nucleotide identity using MUMmer (96%) between <i>P. boreopolis</i> JCM 13306<sup>T</sup> and <i>P. carboxydohydrogena</i> DSM 1083<sup>T</sup>, with the members of the <i>Pseudomonadaceae</i> family, were below the threshold value for bacterial species delineation. 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Reclassification of Pseudomonas boreopolis Gray and Thornton 1928 (Approved Lists 1980) as Xanthomonas boreopolis comb. nov. and Pseudomonas carboxydohydrogena (ex Sanjieva and Zavarzin 1971) Meyer et al. 1980 as Afipia carboxydohydrogena comb. nov. based on comparative genomic analysis.
In the present study, we conducted the whole-genome sequence analysis of Pseudomonas boreopolis JCM 13306T and Pseudomonas carboxydohydrogena DSM 1083T from the genus Pseudomonas for assigning taxonomic placement. Sequence analysis of the 16S rRNA gene revealed that P. boreopolis JCM 13306T had the highest sequence similarity to Xanthomonas species, with sequence similarities ranging from 97.24% to 97.92% nucleotide identity. Likewise, sequence analysis of the 16S rRNA gene exhibited P. carboxydohydrogena DSM 1083T with 99.36%, 99.00% and 98.93% similarity to Afipia felis ATCC 53690T, Afipia carboxidovorans ATCC 49405T and Afipia clevelandensis ATCC 49720T, respectively. P. boreopolis JCM 13306T and P. carboxydohydrogena DSM 1083T have indicated a distinct position in the phylogenetic (based on concatenated sequences of 81 core proteins and 16S rRNA gene) and phylogenomic trees from some type strains of the Pseudomonadaceae family; however, P. boreopolis JCM 13306T and P. carboxydohydrogena DSM 1083T were strongly clustered with species of the Xanthomonas (family Lysobacteraceae) and Afipia (family Nitrobacteraceae), respectively. Besides, the amino acid identity values between P. boreopolis JCM 13306T and the members of the Pseudomonadaceae family were 53.95-57.98%, as well as between P. carboxydohydrogena DSM 1083T and this family which were 50.43-51.41%. These values were below the cut-off level for genus demarcation (60-85%). The scores of digital DNA-DNA hybridization (70%), average nucleotide identity by blast (95-96%) and average nucleotide identity using MUMmer (96%) between P. boreopolis JCM 13306T and P. carboxydohydrogena DSM 1083T, with the members of the Pseudomonadaceae family, were below the threshold value for bacterial species delineation. Therefore, based on genomic and phylogenomic analysis, we propose reclassifying P. boreopolis JCM 13306T and P. carboxydohydrogena DSM 1083T as Xanthomonas boreopolis comb. nov. in the Lysobacteraceae family and Afipia carboxydohydrogena comb. nov. in the Nitrobacteraceae family, respectively.
期刊介绍:
Published by the Microbiology Society and owned by the International Committee on Systematics of Prokaryotes (ICSP), a committee of the Bacteriology and Applied Microbiology Division of the International Union of Microbiological Societies, International Journal of Systematic and Evolutionary Microbiology is the leading forum for the publication of novel microbial taxa and the ICSP’s official journal of record for prokaryotic names.
The journal welcomes high-quality research on all aspects of microbial evolution, phylogenetics and systematics, encouraging submissions on all prokaryotes, yeasts, microfungi, protozoa and microalgae across the full breadth of systematics including:
Identification, characterisation and culture preservation
Microbial evolution and biodiversity
Molecular environmental work with strong taxonomic or evolutionary content
Nomenclature
Taxonomy and phylogenetics.
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