A proposal to rename the hyperthermophile Pyrococcus woesei as Pyrococcus furiosus subsp. woesei
Pyrococcus species are hyperthermophilic members of the order Thermococcales, with optimal growth temperatures approaching 100°C. All species grow heterotrophically and produce H2 or, in the presence of elemental sulfur (S°), H2S. Pyrococcus woesei and P. furiosus were isolated from marine sediments at the same Vulcano Island beach site and share many morphological and physiological characteristics. We report here that the rDNA operons of these strains have identical sequences, including their intergenic spacer regions and part of the 23S rRNA. Both species grow rapidly and produce H2 in the presence of 0.1% maltose and 10-100 μM sodium tungstate in S°-free medium. However, P. woesei shows more extensive autolysis than P. furiosus in the stationary phase. Pyrococcus furiosus and P. woesei share three closely related families of insertion sequences (ISs). A Southern blot performed with IS probes showed extensive colinearity between the genomes of P. woesei and P. furiosus. Cloning and sequencing of ISs that were in different contexts in P. woesei and P. furiosus revealed that the napA gene in P. woesei is disrupted by a type III IS element, whereas in P. furiosus, this gene is intact. A type I IS element, closely linked to the napA gene, was observed in the same context in both P. furiosus and P. woesei genomes. Our results suggest that the IS elements are implicated in genomic rearrangements and reshuffling in these closely related strains. We propose to rename P. woesei a subspecies of P. furiosus based on their identical rDNA operon sequences, many common IS elements that are shared genomic markers, and the observation that all P. woesei nucleotide sequences deposited in GenBank to date are >99% identical to P. furiosus sequences.
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Heron Publishing
2004
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dig-irnas-es-10261-644922018-09-11T10:22:21Z A proposal to rename the hyperthermophile Pyrococcus woesei as Pyrococcus furiosus subsp. woesei Kanoksilapatham, W. González Grau, Juan Miguel Maeder, D. L. DiRuggiero, Jocelyne Robb, F. T. National Science Foundation (US) Knut and Alice Wallenberg Foundation Ministerio de Ciencia y Tecnología (España) Pyrococcus species are hyperthermophilic members of the order Thermococcales, with optimal growth temperatures approaching 100°C. All species grow heterotrophically and produce H2 or, in the presence of elemental sulfur (S°), H2S. Pyrococcus woesei and P. furiosus were isolated from marine sediments at the same Vulcano Island beach site and share many morphological and physiological characteristics. We report here that the rDNA operons of these strains have identical sequences, including their intergenic spacer regions and part of the 23S rRNA. Both species grow rapidly and produce H2 in the presence of 0.1% maltose and 10-100 μM sodium tungstate in S°-free medium. However, P. woesei shows more extensive autolysis than P. furiosus in the stationary phase. Pyrococcus furiosus and P. woesei share three closely related families of insertion sequences (ISs). A Southern blot performed with IS probes showed extensive colinearity between the genomes of P. woesei and P. furiosus. Cloning and sequencing of ISs that were in different contexts in P. woesei and P. furiosus revealed that the napA gene in P. woesei is disrupted by a type III IS element, whereas in P. furiosus, this gene is intact. A type I IS element, closely linked to the napA gene, was observed in the same context in both P. furiosus and P. woesei genomes. Our results suggest that the IS elements are implicated in genomic rearrangements and reshuffling in these closely related strains. We propose to rename P. woesei a subspecies of P. furiosus based on their identical rDNA operon sequences, many common IS elements that are shared genomic markers, and the observation that all P. woesei nucleotide sequences deposited in GenBank to date are >99% identical to P. furiosus sequences. This work was supported by a grant from the Knut and Alice Wallenberg Foundation, and by Grant MCB 9809352 to F.T.R. from the National Science Foundation. J.M.G. also acknowledges support from the Spanish Ministry of Science and Technology through the Ramon y Cajal Programme and Grant REN2002-00041/GLO. This is Contribution No. 04-620 from the Center of Marine Biotechnology. Peer Reviewed 2013-01-20T13:58:18Z 2013-01-20T13:58:18Z 2004 2013-01-20T13:58:18Z artículo http://purl.org/coar/resource_type/c_6501 issn: 1472-3646 e-issn: 1472-3654 Archaea 1(4): 277-283 (2004) http://hdl.handle.net/10261/64492 http://dx.doi.org/10.13039/100000001 http://dx.doi.org/10.13039/501100004063 http://dx.doi.org/10.13039/501100006280 en open Heron Publishing |
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Pyrococcus species are hyperthermophilic members of the order Thermococcales, with optimal growth temperatures approaching 100°C. All species grow heterotrophically and produce H2 or, in the presence of elemental sulfur (S°), H2S. Pyrococcus woesei and P. furiosus were isolated from marine sediments at the same Vulcano Island beach site and share many morphological and physiological characteristics. We report here that the rDNA operons of these strains have identical sequences, including their intergenic spacer regions and part of the 23S rRNA. Both species grow rapidly and produce H2 in the presence of 0.1% maltose and 10-100 μM sodium tungstate in S°-free medium. However, P. woesei shows more extensive autolysis than P. furiosus in the stationary phase. Pyrococcus furiosus and P. woesei share three closely related families of insertion sequences (ISs). A Southern blot performed with IS probes showed extensive colinearity between the genomes of P. woesei and P. furiosus. Cloning and sequencing of ISs that were in different contexts in P. woesei and P. furiosus revealed that the napA gene in P. woesei is disrupted by a type III IS element, whereas in P. furiosus, this gene is intact. A type I IS element, closely linked to the napA gene, was observed in the same context in both P. furiosus and P. woesei genomes. Our results suggest that the IS elements are implicated in genomic rearrangements and reshuffling in these closely related strains. We propose to rename P. woesei a subspecies of P. furiosus based on their identical rDNA operon sequences, many common IS elements that are shared genomic markers, and the observation that all P. woesei nucleotide sequences deposited in GenBank to date are >99% identical to P. furiosus sequences. |
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National Science Foundation (US) |
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National Science Foundation (US) Kanoksilapatham, W. González Grau, Juan Miguel Maeder, D. L. DiRuggiero, Jocelyne Robb, F. T. |
| format |
artículo |
| author |
Kanoksilapatham, W. González Grau, Juan Miguel Maeder, D. L. DiRuggiero, Jocelyne Robb, F. T. |
| spellingShingle |
Kanoksilapatham, W. González Grau, Juan Miguel Maeder, D. L. DiRuggiero, Jocelyne Robb, F. T. A proposal to rename the hyperthermophile Pyrococcus woesei as Pyrococcus furiosus subsp. woesei |
| author_sort |
Kanoksilapatham, W. |
| title |
A proposal to rename the hyperthermophile Pyrococcus woesei as Pyrococcus furiosus subsp. woesei |
| title_short |
A proposal to rename the hyperthermophile Pyrococcus woesei as Pyrococcus furiosus subsp. woesei |
| title_full |
A proposal to rename the hyperthermophile Pyrococcus woesei as Pyrococcus furiosus subsp. woesei |
| title_fullStr |
A proposal to rename the hyperthermophile Pyrococcus woesei as Pyrococcus furiosus subsp. woesei |
| title_full_unstemmed |
A proposal to rename the hyperthermophile Pyrococcus woesei as Pyrococcus furiosus subsp. woesei |
| title_sort |
proposal to rename the hyperthermophile pyrococcus woesei as pyrococcus furiosus subsp. woesei |
| publisher |
Heron Publishing |
| publishDate |
2004 |
| url |
http://hdl.handle.net/10261/64492 http://dx.doi.org/10.13039/100000001 http://dx.doi.org/10.13039/501100004063 http://dx.doi.org/10.13039/501100006280 |
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