IRIS publication 60206725
Marine metagenomics: new tools for the study and exploitation of marine microbial metabolism
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TY - JOUR - Kennedy, J.,Flemer, B.,Jackson, S. A.,Lejon, D. P.,Morrissey, J. P.,O'Gara, F.,Dobson, A. D. - 2010 - Unknown - Marine metagenomics: new tools for the study and exploitation of marine microbial metabolism - Validated - () - 8 - 33 - 608 - 28608 - The marine environment is extremely diverse, with huge variations in pressure and temperature. Nevertheless, life, especially microbial life, thrives throughout the marine biosphere and microbes have adapted to all the divergent environments present. Large scale DNA sequence based approaches have recently been used to investigate the marine environment and these studies have revealed that the oceans harbor unprecedented microbial diversity. Novel gene families with representatives only within such metagenomic datasets represent a large proportion of the ocean metagenome. The presence of so many new gene families from these uncultured and highly diverse microbial populations represents a challenge for the understanding of and exploitation of the biology and biochemistry of the ocean environment. The application of new metagenomic and single cell genomics tools offers new ways to explore the complete metabolic diversity of the marine biome.The marine environment is extremely diverse, with huge variations in pressure and temperature. Nevertheless, life, especially microbial life, thrives throughout the marine biosphere and microbes have adapted to all the divergent environments present. Large scale DNA sequence based approaches have recently been used to investigate the marine environment and these studies have revealed that the oceans harbor unprecedented microbial diversity. Novel gene families with representatives only within such metagenomic datasets represent a large proportion of the ocean metagenome. The presence of so many new gene families from these uncultured and highly diverse microbial populations represents a challenge for the understanding of and exploitation of the biology and biochemistry of the ocean environment. The application of new metagenomic and single cell genomics tools offers new ways to explore the complete metabolic diversity of the marine biome. - 1660-3397 (Electronic)16 - http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve;db=PubMed;dopt=Citation;list_uids=20411118http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve;db=PubMed;dopt=Citation;list_uids=20411118 DA - 2010/NaN ER -
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@article{V60206725, = {Kennedy, J. and Flemer, B. and Jackson, S. A. and Lejon, D. P. and Morrissey, J. P. and O'Gara, F. and Dobson, A. D. }, = {2010}, = {Unknown}, = {Marine metagenomics: new tools for the study and exploitation of marine microbial metabolism}, = {Validated}, = {()}, = {8}, = {33}, pages = {608--28608}, = {{The marine environment is extremely diverse, with huge variations in pressure and temperature. Nevertheless, life, especially microbial life, thrives throughout the marine biosphere and microbes have adapted to all the divergent environments present. Large scale DNA sequence based approaches have recently been used to investigate the marine environment and these studies have revealed that the oceans harbor unprecedented microbial diversity. Novel gene families with representatives only within such metagenomic datasets represent a large proportion of the ocean metagenome. The presence of so many new gene families from these uncultured and highly diverse microbial populations represents a challenge for the understanding of and exploitation of the biology and biochemistry of the ocean environment. The application of new metagenomic and single cell genomics tools offers new ways to explore the complete metabolic diversity of the marine biome.The marine environment is extremely diverse, with huge variations in pressure and temperature. Nevertheless, life, especially microbial life, thrives throughout the marine biosphere and microbes have adapted to all the divergent environments present. Large scale DNA sequence based approaches have recently been used to investigate the marine environment and these studies have revealed that the oceans harbor unprecedented microbial diversity. Novel gene families with representatives only within such metagenomic datasets represent a large proportion of the ocean metagenome. The presence of so many new gene families from these uncultured and highly diverse microbial populations represents a challenge for the understanding of and exploitation of the biology and biochemistry of the ocean environment. The application of new metagenomic and single cell genomics tools offers new ways to explore the complete metabolic diversity of the marine biome.}}, issn = {1660-3397 (Electronic)16}, = {http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve;db=PubMed;dopt=Citation;list_uids=20411118http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve;db=PubMed;dopt=Citation;list_uids=20411118}, source = {IRIS} }
Data as stored in IRIS
AUTHORS | Kennedy, J.,Flemer, B.,Jackson, S. A.,Lejon, D. P.,Morrissey, J. P.,O'Gara, F.,Dobson, A. D. | ||
YEAR | 2010 | ||
MONTH | Unknown | ||
JOURNAL_CODE | |||
TITLE | Marine metagenomics: new tools for the study and exploitation of marine microbial metabolism | ||
STATUS | Validated | ||
TIMES_CITED | () | ||
SEARCH_KEYWORD | |||
VOLUME | 8 | ||
ISSUE | 33 | ||
START_PAGE | 608 | ||
END_PAGE | 28608 | ||
ABSTRACT | The marine environment is extremely diverse, with huge variations in pressure and temperature. Nevertheless, life, especially microbial life, thrives throughout the marine biosphere and microbes have adapted to all the divergent environments present. Large scale DNA sequence based approaches have recently been used to investigate the marine environment and these studies have revealed that the oceans harbor unprecedented microbial diversity. Novel gene families with representatives only within such metagenomic datasets represent a large proportion of the ocean metagenome. The presence of so many new gene families from these uncultured and highly diverse microbial populations represents a challenge for the understanding of and exploitation of the biology and biochemistry of the ocean environment. The application of new metagenomic and single cell genomics tools offers new ways to explore the complete metabolic diversity of the marine biome.The marine environment is extremely diverse, with huge variations in pressure and temperature. Nevertheless, life, especially microbial life, thrives throughout the marine biosphere and microbes have adapted to all the divergent environments present. Large scale DNA sequence based approaches have recently been used to investigate the marine environment and these studies have revealed that the oceans harbor unprecedented microbial diversity. Novel gene families with representatives only within such metagenomic datasets represent a large proportion of the ocean metagenome. The presence of so many new gene families from these uncultured and highly diverse microbial populations represents a challenge for the understanding of and exploitation of the biology and biochemistry of the ocean environment. The application of new metagenomic and single cell genomics tools offers new ways to explore the complete metabolic diversity of the marine biome. | ||
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ISBN_ISSN | 1660-3397 (Electronic)16 | ||
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URL | http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve;db=PubMed;dopt=Citation;list_uids=20411118http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve;db=PubMed;dopt=Citation;list_uids=20411118 | ||
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