Advanced microbial taxonomy combined with genome-based-approaches reveals that vibrio astriarenae sp. Nov., an agarolytic marine bacterium, forms a new clade in Vibrionaceae

Nurhidayu Al-Saari; Feng Gao; Amin A.K.M. Rohul; Kazumichi Sato; Keisuke Sato; Sayaka Mino; Wataru Suda; Kenshiro Oshima; Masahira Hattori; Moriya Ohkuma; Pedro M. Meirelles; Fabiano L. Thompson; Cristiane Thompson; Gilberto M.A. Filho; Bruno Gomez-Gil; Toko Sawabe; Tomoo Sawabe

doi:10.1371/journal.pone.0136279

Advanced microbial taxonomy combined with genome-based-approaches reveals that vibrio astriarenae sp. Nov., an agarolytic marine bacterium, forms a new clade in Vibrionaceae

Nurhidayu Al-Saari, Feng Gao, Amin A.K.M. Rohul, Kazumichi Sato, Keisuke Sato, Sayaka Mino, Wataru Suda, Kenshiro Oshima, Masahira Hattori, Moriya Ohkuma, Pedro M. Meirelles, Fabiano L. Thompson, Cristiane Thompson, Gilberto M.A. Filho, Bruno Gomez-Gil, Toko Sawabe, Tomoo Sawabe

微生物学・免疫学

研究成果: Article › 査読

31 被引用数 (Scopus)

抄録

Advances in genomic microbial taxonomy have opened the way to create a more universal and transparent concept of species but is still in a transitional stage towards becoming a defining robust criteria for describing new microbial species with minimum features obtained using both genome and classical polyphasic taxonomies. Here we performed advanced microbial taxonomies combined with both genome-based and classical approaches for new agarolytic vibrio isolates to describe not only a novel Vibrio species but also a member of a new Vibrio clade. Two novel vibrio strains (Vibrio astriarenae sp. Nov. C7^T and C20) showing agarolytic, halophilic and fermentative metabolic activity were isolated from a seawater sample collected in a coral reef in Okinawa. Intraspecific similarities of the isolates were identical in both sequences on the 16S rRNA and pyrH genes, but the closest relatives on the molecular phylogenetic trees on the basis of 16S rRNA and pyrH gene sequences were V. hangzhouensis JCM 15146^T (97.8% similarity) and V. agarivorans CECT 5085^T (97.3% similarity), respectively. Further multilocus sequence analysis (MLSA) on the basis of 8 protein coding genes (ftsZ, gapA, gyrB, mreB, pyrH, recA, rpoA, and topA) obtained by the genome sequences clearly showed the V. astriarenae strain C7^T and C20 formed a distinct new clade protruded next to V. agarivorans CECT 5085^T. The singleton V. agarivorans has never been included in previous MLSA of Vibrionaceae due to the lack of some gene sequences. Now the gene sequences are completed and analysis of 100 taxa in total provided a clear picture describing the association of V. agarivorans into pre-existing concatenated network tree and concluded its relationship to our vibrio strains. Experimental DNA-DNA hybridization (DDH) data showed that the strains C7^T and C20 were conspecific but were separated from all of the other Vibrio species related on the basis of both 16S rRNA and pyrH gene phylogenies (e.g., V. agarivorans CECT 5085^T, V. hangzhouensis JCM 15146^T V. maritimus LMG 25439^T, and V. variabilis LMG 25438^T). In silico DDH data also supported the genomic relationship. The strains C7^T also had less than 95% average amino acid identity (AAI) and average nucleotide identity (ANI) towards V. maritimus C210, V. variabilis C206, and V. mediterranei AK1^T, V. brasiliensis LMG 20546^T, V. orientalis ATCC 33934^T, and V. sinaloensis DSM 21326. The name Vibrio astriarenae sp. Nov. is proposed with C7 as the type strains. Both V. agarivorans CECT 5058^T and V. astriarenae C7^T are members of the newest clade of Vibrionaceae named Agarivorans.

本文言語	English
論文番号	e0136279
ジャーナル	PloS one
巻	10
号	8
DOI	https://doi.org/10.1371/journal.pone.0136279
出版ステータス	Published - 2015 8月 27

ASJC Scopus subject areas

一般

UN SDG

この成果は、次の持続可能な開発目標に貢献しています

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10.1371/journal.pone.0136279

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引用スタイル

Al-Saari, N., Gao, F., Rohul, A. A. K. M., Sato, K., Sato, K., Mino, S., Suda, W., Oshima, K., Hattori, M., Ohkuma, M., Meirelles, P. M., Thompson, F. L., Thompson, C., Filho, G. M. A., Gomez-Gil, B., Sawabe, T., & Sawabe, T. (2015). Advanced microbial taxonomy combined with genome-based-approaches reveals that vibrio astriarenae sp. Nov., an agarolytic marine bacterium, forms a new clade in Vibrionaceae. PloS one, 10(8), Article e0136279. https://doi.org/10.1371/journal.pone.0136279

Al-Saari, N, Gao, F, Rohul, AAKM, Sato, K, Sato, K, Mino, S, Suda, W, Oshima, K, Hattori, M, Ohkuma, M, Meirelles, PM, Thompson, FL, Thompson, C, Filho, GMA, Gomez-Gil, B, Sawabe, T & Sawabe, T 2015, 'Advanced microbial taxonomy combined with genome-based-approaches reveals that vibrio astriarenae sp. Nov., an agarolytic marine bacterium, forms a new clade in Vibrionaceae', PloS one, vol. 10, no. 8, e0136279. https://doi.org/10.1371/journal.pone.0136279

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title = "Advanced microbial taxonomy combined with genome-based-approaches reveals that vibrio astriarenae sp. Nov., an agarolytic marine bacterium, forms a new clade in Vibrionaceae",

abstract = "Advances in genomic microbial taxonomy have opened the way to create a more universal and transparent concept of species but is still in a transitional stage towards becoming a defining robust criteria for describing new microbial species with minimum features obtained using both genome and classical polyphasic taxonomies. Here we performed advanced microbial taxonomies combined with both genome-based and classical approaches for new agarolytic vibrio isolates to describe not only a novel Vibrio species but also a member of a new Vibrio clade. Two novel vibrio strains (Vibrio astriarenae sp. Nov. C7T and C20) showing agarolytic, halophilic and fermentative metabolic activity were isolated from a seawater sample collected in a coral reef in Okinawa. Intraspecific similarities of the isolates were identical in both sequences on the 16S rRNA and pyrH genes, but the closest relatives on the molecular phylogenetic trees on the basis of 16S rRNA and pyrH gene sequences were V. hangzhouensis JCM 15146T (97.8% similarity) and V. agarivorans CECT 5085T (97.3% similarity), respectively. Further multilocus sequence analysis (MLSA) on the basis of 8 protein coding genes (ftsZ, gapA, gyrB, mreB, pyrH, recA, rpoA, and topA) obtained by the genome sequences clearly showed the V. astriarenae strain C7T and C20 formed a distinct new clade protruded next to V. agarivorans CECT 5085T. The singleton V. agarivorans has never been included in previous MLSA of Vibrionaceae due to the lack of some gene sequences. Now the gene sequences are completed and analysis of 100 taxa in total provided a clear picture describing the association of V. agarivorans into pre-existing concatenated network tree and concluded its relationship to our vibrio strains. Experimental DNA-DNA hybridization (DDH) data showed that the strains C7T and C20 were conspecific but were separated from all of the other Vibrio species related on the basis of both 16S rRNA and pyrH gene phylogenies (e.g., V. agarivorans CECT 5085T, V. hangzhouensis JCM 15146T V. maritimus LMG 25439T, and V. variabilis LMG 25438T). In silico DDH data also supported the genomic relationship. The strains C7T also had less than 95% average amino acid identity (AAI) and average nucleotide identity (ANI) towards V. maritimus C210, V. variabilis C206, and V. mediterranei AK1T, V. brasiliensis LMG 20546T, V. orientalis ATCC 33934T, and V. sinaloensis DSM 21326. The name Vibrio astriarenae sp. Nov. is proposed with C7 as the type strains. Both V. agarivorans CECT 5058T and V. astriarenae C7T are members of the newest clade of Vibrionaceae named Agarivorans.",

author = "Nurhidayu Al-Saari and Feng Gao and Rohul, {Amin A.K.M.} and Kazumichi Sato and Keisuke Sato and Sayaka Mino and Wataru Suda and Kenshiro Oshima and Masahira Hattori and Moriya Ohkuma and Meirelles, {Pedro M.} and Thompson, {Fabiano L.} and Cristiane Thompson and Filho, {Gilberto M.A.} and Bruno Gomez-Gil and Toko Sawabe and Tomoo Sawabe",

note = "Funding Information: This work was supported by Genome Information Upgrading Program of National BioResource Project from the Ministry of Education, Culture, Sports, Science and Technology (MEXT) of Japan (MH and MO), Strategic Japanese-Brazilian Cooperative Program, Biomass and Bioenergy (TS and FLT), JSPS-CAPES bilateral cooperative program (TS and FLT), and Kaken (26660168) (TS). We are gratefully thank Mr. Tomioka for collecting seawater samples and special thanks go to Prof. Dr. Bernhard Schink from University of Konstanz, Germany for his advice on bacterial names. FLT and CT thank CAPES, CNPq, and FAPERJ for funding. PMM thanks CAPES for the PhD scholarship (4848-14-9 CAPES/JSPS) and MARA for the PhD education loan to NA. Publisher Copyright: {\textcopyright} 2015 Al-saari et al.",

year = "2015",

month = aug,

day = "27",

doi = "10.1371/journal.pone.0136279",

language = "English",

volume = "10",

journal = "PloS one",

issn = "1932-6203",

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T1 - Advanced microbial taxonomy combined with genome-based-approaches reveals that vibrio astriarenae sp. Nov., an agarolytic marine bacterium, forms a new clade in Vibrionaceae

AU - Al-Saari, Nurhidayu

AU - Gao, Feng

AU - Rohul, Amin A.K.M.

AU - Sato, Kazumichi

AU - Sato, Keisuke

AU - Mino, Sayaka

AU - Suda, Wataru

AU - Oshima, Kenshiro

AU - Hattori, Masahira

AU - Ohkuma, Moriya

AU - Meirelles, Pedro M.

AU - Thompson, Fabiano L.

AU - Thompson, Cristiane

AU - Filho, Gilberto M.A.

AU - Gomez-Gil, Bruno

AU - Sawabe, Toko

AU - Sawabe, Tomoo

N1 - Funding Information: This work was supported by Genome Information Upgrading Program of National BioResource Project from the Ministry of Education, Culture, Sports, Science and Technology (MEXT) of Japan (MH and MO), Strategic Japanese-Brazilian Cooperative Program, Biomass and Bioenergy (TS and FLT), JSPS-CAPES bilateral cooperative program (TS and FLT), and Kaken (26660168) (TS). We are gratefully thank Mr. Tomioka for collecting seawater samples and special thanks go to Prof. Dr. Bernhard Schink from University of Konstanz, Germany for his advice on bacterial names. FLT and CT thank CAPES, CNPq, and FAPERJ for funding. PMM thanks CAPES for the PhD scholarship (4848-14-9 CAPES/JSPS) and MARA for the PhD education loan to NA. Publisher Copyright: © 2015 Al-saari et al.

PY - 2015/8/27

Y1 - 2015/8/27

N2 - Advances in genomic microbial taxonomy have opened the way to create a more universal and transparent concept of species but is still in a transitional stage towards becoming a defining robust criteria for describing new microbial species with minimum features obtained using both genome and classical polyphasic taxonomies. Here we performed advanced microbial taxonomies combined with both genome-based and classical approaches for new agarolytic vibrio isolates to describe not only a novel Vibrio species but also a member of a new Vibrio clade. Two novel vibrio strains (Vibrio astriarenae sp. Nov. C7T and C20) showing agarolytic, halophilic and fermentative metabolic activity were isolated from a seawater sample collected in a coral reef in Okinawa. Intraspecific similarities of the isolates were identical in both sequences on the 16S rRNA and pyrH genes, but the closest relatives on the molecular phylogenetic trees on the basis of 16S rRNA and pyrH gene sequences were V. hangzhouensis JCM 15146T (97.8% similarity) and V. agarivorans CECT 5085T (97.3% similarity), respectively. Further multilocus sequence analysis (MLSA) on the basis of 8 protein coding genes (ftsZ, gapA, gyrB, mreB, pyrH, recA, rpoA, and topA) obtained by the genome sequences clearly showed the V. astriarenae strain C7T and C20 formed a distinct new clade protruded next to V. agarivorans CECT 5085T. The singleton V. agarivorans has never been included in previous MLSA of Vibrionaceae due to the lack of some gene sequences. Now the gene sequences are completed and analysis of 100 taxa in total provided a clear picture describing the association of V. agarivorans into pre-existing concatenated network tree and concluded its relationship to our vibrio strains. Experimental DNA-DNA hybridization (DDH) data showed that the strains C7T and C20 were conspecific but were separated from all of the other Vibrio species related on the basis of both 16S rRNA and pyrH gene phylogenies (e.g., V. agarivorans CECT 5085T, V. hangzhouensis JCM 15146T V. maritimus LMG 25439T, and V. variabilis LMG 25438T). In silico DDH data also supported the genomic relationship. The strains C7T also had less than 95% average amino acid identity (AAI) and average nucleotide identity (ANI) towards V. maritimus C210, V. variabilis C206, and V. mediterranei AK1T, V. brasiliensis LMG 20546T, V. orientalis ATCC 33934T, and V. sinaloensis DSM 21326. The name Vibrio astriarenae sp. Nov. is proposed with C7 as the type strains. Both V. agarivorans CECT 5058T and V. astriarenae C7T are members of the newest clade of Vibrionaceae named Agarivorans.

AB - Advances in genomic microbial taxonomy have opened the way to create a more universal and transparent concept of species but is still in a transitional stage towards becoming a defining robust criteria for describing new microbial species with minimum features obtained using both genome and classical polyphasic taxonomies. Here we performed advanced microbial taxonomies combined with both genome-based and classical approaches for new agarolytic vibrio isolates to describe not only a novel Vibrio species but also a member of a new Vibrio clade. Two novel vibrio strains (Vibrio astriarenae sp. Nov. C7T and C20) showing agarolytic, halophilic and fermentative metabolic activity were isolated from a seawater sample collected in a coral reef in Okinawa. Intraspecific similarities of the isolates were identical in both sequences on the 16S rRNA and pyrH genes, but the closest relatives on the molecular phylogenetic trees on the basis of 16S rRNA and pyrH gene sequences were V. hangzhouensis JCM 15146T (97.8% similarity) and V. agarivorans CECT 5085T (97.3% similarity), respectively. Further multilocus sequence analysis (MLSA) on the basis of 8 protein coding genes (ftsZ, gapA, gyrB, mreB, pyrH, recA, rpoA, and topA) obtained by the genome sequences clearly showed the V. astriarenae strain C7T and C20 formed a distinct new clade protruded next to V. agarivorans CECT 5085T. The singleton V. agarivorans has never been included in previous MLSA of Vibrionaceae due to the lack of some gene sequences. Now the gene sequences are completed and analysis of 100 taxa in total provided a clear picture describing the association of V. agarivorans into pre-existing concatenated network tree and concluded its relationship to our vibrio strains. Experimental DNA-DNA hybridization (DDH) data showed that the strains C7T and C20 were conspecific but were separated from all of the other Vibrio species related on the basis of both 16S rRNA and pyrH gene phylogenies (e.g., V. agarivorans CECT 5085T, V. hangzhouensis JCM 15146T V. maritimus LMG 25439T, and V. variabilis LMG 25438T). In silico DDH data also supported the genomic relationship. The strains C7T also had less than 95% average amino acid identity (AAI) and average nucleotide identity (ANI) towards V. maritimus C210, V. variabilis C206, and V. mediterranei AK1T, V. brasiliensis LMG 20546T, V. orientalis ATCC 33934T, and V. sinaloensis DSM 21326. The name Vibrio astriarenae sp. Nov. is proposed with C7 as the type strains. Both V. agarivorans CECT 5058T and V. astriarenae C7T are members of the newest clade of Vibrionaceae named Agarivorans.

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