Yung Mi Lee , Yerin Park , Heesoo Kim , Seung Chul Shin
{"title":"东西伯利亚海海相沉积物中Rhodoferax sp. PAMC 29310的全基因组序列。","authors":"Yung Mi Lee , Yerin Park , Heesoo Kim , Seung Chul Shin","doi":"10.1016/j.margen.2021.100891","DOIUrl":null,"url":null,"abstract":"<div><p><em>Rhodoferax</em> sp. PAMC 29310 was isolated from a surface marine sediment of the East Siberian Sea, Arctic. Whole-genome sequencing of the strain <em>Rhodoferax</em> sp. PAMC 29310 was achieved using PacBio RS II and Illumina platform. The resulting complete genome comprised of 4,593,249 base pairs (G + C content of 58.0%) with a single chromosome, 4546 protein-coding genes, 57 tRNAs and 6 rRNA operons. A complete set of genes encoding the enzymes of glycolysis and citric acid cycle were identified. No genes encoding ribulose 1,5-bisphosphate carboxylase/oxygenase (RuBisCO) and nitrogenase reductase (<em>nif</em>) were present indicating that strain PAMC 29310 is not capable of fixing of carbon and nitrogen. PAMC 29310 genome contains genes for dissimilatory and assimilatory nitrate reduction. Gene encoding choline dehydrogenase enzyme which functions at the first step in the synthesis of betaine, one of the most effective osmoprotectants, was detected. In particular, among the genomes of the genus <em>Rhodoferax</em> strains, gene encoding nitrite reductase (<em>nir</em>K), which reduces nitrite to nitric oxide and <em>tetA</em> gene encoding tetracycline resistance protein involved in the resistance to tetracycline were identified only in the genome of <em>Rhodoferax</em> sp. PAMC 29310. As the first genome from the strain which was isolated from marine sediment in the genus <em>Rhodoferax</em>, investigation of physiological characteristics based on the complete genome sequences will help understand the adaptation of <em>Rhodoferax</em> sp. PAMC 29310 in the marine sediment.</p></div>","PeriodicalId":18321,"journal":{"name":"Marine genomics","volume":"62 ","pages":"Article 100891"},"PeriodicalIF":1.5000,"publicationDate":"2022-04-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1016/j.margen.2021.100891","citationCount":"1","resultStr":"{\"title\":\"Complete genome sequence of Rhodoferax sp. PAMC 29310 from a marine sediment of the East Siberian Sea\",\"authors\":\"Yung Mi Lee , Yerin Park , Heesoo Kim , Seung Chul Shin\",\"doi\":\"10.1016/j.margen.2021.100891\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p><em>Rhodoferax</em> sp. PAMC 29310 was isolated from a surface marine sediment of the East Siberian Sea, Arctic. Whole-genome sequencing of the strain <em>Rhodoferax</em> sp. PAMC 29310 was achieved using PacBio RS II and Illumina platform. The resulting complete genome comprised of 4,593,249 base pairs (G + C content of 58.0%) with a single chromosome, 4546 protein-coding genes, 57 tRNAs and 6 rRNA operons. A complete set of genes encoding the enzymes of glycolysis and citric acid cycle were identified. No genes encoding ribulose 1,5-bisphosphate carboxylase/oxygenase (RuBisCO) and nitrogenase reductase (<em>nif</em>) were present indicating that strain PAMC 29310 is not capable of fixing of carbon and nitrogen. PAMC 29310 genome contains genes for dissimilatory and assimilatory nitrate reduction. Gene encoding choline dehydrogenase enzyme which functions at the first step in the synthesis of betaine, one of the most effective osmoprotectants, was detected. In particular, among the genomes of the genus <em>Rhodoferax</em> strains, gene encoding nitrite reductase (<em>nir</em>K), which reduces nitrite to nitric oxide and <em>tetA</em> gene encoding tetracycline resistance protein involved in the resistance to tetracycline were identified only in the genome of <em>Rhodoferax</em> sp. PAMC 29310. As the first genome from the strain which was isolated from marine sediment in the genus <em>Rhodoferax</em>, investigation of physiological characteristics based on the complete genome sequences will help understand the adaptation of <em>Rhodoferax</em> sp. 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Complete genome sequence of Rhodoferax sp. PAMC 29310 from a marine sediment of the East Siberian Sea
Rhodoferax sp. PAMC 29310 was isolated from a surface marine sediment of the East Siberian Sea, Arctic. Whole-genome sequencing of the strain Rhodoferax sp. PAMC 29310 was achieved using PacBio RS II and Illumina platform. The resulting complete genome comprised of 4,593,249 base pairs (G + C content of 58.0%) with a single chromosome, 4546 protein-coding genes, 57 tRNAs and 6 rRNA operons. A complete set of genes encoding the enzymes of glycolysis and citric acid cycle were identified. No genes encoding ribulose 1,5-bisphosphate carboxylase/oxygenase (RuBisCO) and nitrogenase reductase (nif) were present indicating that strain PAMC 29310 is not capable of fixing of carbon and nitrogen. PAMC 29310 genome contains genes for dissimilatory and assimilatory nitrate reduction. Gene encoding choline dehydrogenase enzyme which functions at the first step in the synthesis of betaine, one of the most effective osmoprotectants, was detected. In particular, among the genomes of the genus Rhodoferax strains, gene encoding nitrite reductase (nirK), which reduces nitrite to nitric oxide and tetA gene encoding tetracycline resistance protein involved in the resistance to tetracycline were identified only in the genome of Rhodoferax sp. PAMC 29310. As the first genome from the strain which was isolated from marine sediment in the genus Rhodoferax, investigation of physiological characteristics based on the complete genome sequences will help understand the adaptation of Rhodoferax sp. PAMC 29310 in the marine sediment.
期刊介绍:
The journal publishes papers on all functional and evolutionary aspects of genes, chromatin, chromosomes and (meta)genomes of marine (and freshwater) organisms. It deals with new genome-enabled insights into the broader framework of environmental science. Topics within the scope of this journal include:
• Population genomics and ecology
• Evolutionary and developmental genomics
• Comparative genomics
• Metagenomics
• Environmental genomics
• Systems biology
More specific topics include: geographic and phylogenomic characterization of aquatic organisms, metabolic capacities and pathways of organisms and communities, biogeochemical cycles, genomics and integrative approaches applied to microbial ecology including (meta)transcriptomics and (meta)proteomics, tracking of infectious diseases, environmental stress, global climate change and ecosystem modelling.
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