Mechanisms of Thermal Adaptation Revealed From the Genomes of the Antarctic Archaea Methanogenium frigidum and Methanococcoides burtonii

We generated draft genome sequences for two cold-adapted Archaea, Methanogenium frigidum and Methanococcoides burtonii , to identify genotypic characteristics that distinguish them from Archaea with a higher optimal growth temperature (OGT). Comparative genomics revealed trends in amino acid and tRN...

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Published in:Genome Research
Main Authors: Saunders, Neil F.W., Thomas, Torsten, Curmi, Paul M.G., Mattick, John S., Kuczek, Elizabeth, Slade, Rob, Davis, John, Franzmann, Peter D., Boone, David, Rusterholtz, Karl, Feldman, Robert, Gates, Chris, Bench, Shellie, Sowers, Kevin, Kadner, Kristen, Aerts, Andrea, Dehal, Paramvir, Detter, Chris, Glavina, Tijana, Lucas, Susan, Richardson, Paul, Larimer, Frank, Hauser, Loren, Land, Miriam, Cavicchioli, Ricardo
Format: Text
Language:English
Published: Cold Spring Harbor Laboratory Press 2003
Subjects:
ARTICLES
Antarctic
The Antarctic
Antarc*
Online Access:http://www.genome.org/cgi/content/short/1180903v1
https://doi.org/10.1101/gr.1180903
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spelling fthighwire:oai:open-archive.highwire.org:genome:1180903v1 2023-05-15T13:51:53+02:00 Mechanisms of Thermal Adaptation Revealed From the Genomes of the Antarctic Archaea Methanogenium frigidum and Methanococcoides burtonii Saunders, Neil F.W. Thomas, Torsten Curmi, Paul M.G. Mattick, John S. Kuczek, Elizabeth Slade, Rob Davis, John Franzmann, Peter D. Boone, David Rusterholtz, Karl Feldman, Robert Gates, Chris Bench, Shellie Sowers, Kevin Kadner, Kristen Aerts, Andrea Dehal, Paramvir Detter, Chris Glavina, Tijana Lucas, Susan Richardson, Paul Larimer, Frank Hauser, Loren Land, Miriam Cavicchioli, Ricardo 2003-06-12 13:01:28.0 text/html http://www.genome.org/cgi/content/short/1180903v1 https://doi.org/10.1101/gr.1180903 en eng Cold Spring Harbor Laboratory Press http://www.genome.org/cgi/content/short/1180903v1 http://dx.doi.org/10.1101/gr.1180903 Copyright (C) 2003, Cold Spring Harbor Laboratory Press ARTICLES TEXT 2003 fthighwire https://doi.org/10.1101/gr.1180903 2007-06-24T20:54:54Z We generated draft genome sequences for two cold-adapted Archaea, Methanogenium frigidum and Methanococcoides burtonii , to identify genotypic characteristics that distinguish them from Archaea with a higher optimal growth temperature (OGT). Comparative genomics revealed trends in amino acid and tRNA composition, and structural features of proteins. Proteins from the cold-adapted Archaea are characterized by a higher content of noncharged polar amino acids, particularly Gln and Thr and a lower content of hydrophobic amino acids, particularly Leu. Sequence data from nine methanogen genomes (OGT 15°-98°C) were used to generate 1111 modeled protein structures. Analysis of the models from the cold-adapted Archaea showed a strong tendency in the solvent-accessible area for more Gln, Thr, and hydrophobic residues and fewer charged residues. A cold shock domain (CSD) protein (CspA homolog) was identified in M. frigidum , two hypothetical proteins with CSD-folds in M. burtonii , and a unique winged helix DNA-binding domain protein in M. burtonii . This suggests that these types of nucleic acid binding proteins have a critical role in cold-adapted Archaea . Structural analysis of tRNA sequences from the Archaea indicated that GC content is the major factor influencing tRNA stability in hyperthermophiles, but not in the psychrophiles, mesophiles or moderate thermophiles. Below an OGT of 60°C, the GC content in tRNA was largely unchanged, indicating that any requirement for flexibility of tRNA in psychrophiles is mediated by other means. This is the first time that comparisons have been performed with genome data from Archaea spanning the growth temperature extremes from psychrophiles to hyperthermophiles. Text Antarc* Antarctic HighWire Press (Stanford University) Antarctic The Antarctic Genome Research 13 7 1580 1588
institution Open Polar
collection HighWire Press (Stanford University)
op_collection_id fthighwire
language English
topic ARTICLES
spellingShingle ARTICLES
Saunders, Neil F.W.
Thomas, Torsten
Curmi, Paul M.G.
Mattick, John S.
Kuczek, Elizabeth
Slade, Rob
Davis, John
Franzmann, Peter D.
Boone, David
Rusterholtz, Karl
Feldman, Robert
Gates, Chris
Bench, Shellie
Sowers, Kevin
Kadner, Kristen
Aerts, Andrea
Dehal, Paramvir
Detter, Chris
Glavina, Tijana
Lucas, Susan
Richardson, Paul
Larimer, Frank
Hauser, Loren
Land, Miriam
Cavicchioli, Ricardo
Mechanisms of Thermal Adaptation Revealed From the Genomes of the Antarctic Archaea Methanogenium frigidum and Methanococcoides burtonii
topic_facet ARTICLES
description We generated draft genome sequences for two cold-adapted Archaea, Methanogenium frigidum and Methanococcoides burtonii , to identify genotypic characteristics that distinguish them from Archaea with a higher optimal growth temperature (OGT). Comparative genomics revealed trends in amino acid and tRNA composition, and structural features of proteins. Proteins from the cold-adapted Archaea are characterized by a higher content of noncharged polar amino acids, particularly Gln and Thr and a lower content of hydrophobic amino acids, particularly Leu. Sequence data from nine methanogen genomes (OGT 15°-98°C) were used to generate 1111 modeled protein structures. Analysis of the models from the cold-adapted Archaea showed a strong tendency in the solvent-accessible area for more Gln, Thr, and hydrophobic residues and fewer charged residues. A cold shock domain (CSD) protein (CspA homolog) was identified in M. frigidum , two hypothetical proteins with CSD-folds in M. burtonii , and a unique winged helix DNA-binding domain protein in M. burtonii . This suggests that these types of nucleic acid binding proteins have a critical role in cold-adapted Archaea . Structural analysis of tRNA sequences from the Archaea indicated that GC content is the major factor influencing tRNA stability in hyperthermophiles, but not in the psychrophiles, mesophiles or moderate thermophiles. Below an OGT of 60°C, the GC content in tRNA was largely unchanged, indicating that any requirement for flexibility of tRNA in psychrophiles is mediated by other means. This is the first time that comparisons have been performed with genome data from Archaea spanning the growth temperature extremes from psychrophiles to hyperthermophiles.
format Text
author Saunders, Neil F.W.
Thomas, Torsten
Curmi, Paul M.G.
Mattick, John S.
Kuczek, Elizabeth
Slade, Rob
Davis, John
Franzmann, Peter D.
Boone, David
Rusterholtz, Karl
Feldman, Robert
Gates, Chris
Bench, Shellie
Sowers, Kevin
Kadner, Kristen
Aerts, Andrea
Dehal, Paramvir
Detter, Chris
Glavina, Tijana
Lucas, Susan
Richardson, Paul
Larimer, Frank
Hauser, Loren
Land, Miriam
Cavicchioli, Ricardo
author_facet Saunders, Neil F.W.
Thomas, Torsten
Curmi, Paul M.G.
Mattick, John S.
Kuczek, Elizabeth
Slade, Rob
Davis, John
Franzmann, Peter D.
Boone, David
Rusterholtz, Karl
Feldman, Robert
Gates, Chris
Bench, Shellie
Sowers, Kevin
Kadner, Kristen
Aerts, Andrea
Dehal, Paramvir
Detter, Chris
Glavina, Tijana
Lucas, Susan
Richardson, Paul
Larimer, Frank
Hauser, Loren
Land, Miriam
Cavicchioli, Ricardo
author_sort Saunders, Neil F.W.
title Mechanisms of Thermal Adaptation Revealed From the Genomes of the Antarctic Archaea Methanogenium frigidum and Methanococcoides burtonii
title_short Mechanisms of Thermal Adaptation Revealed From the Genomes of the Antarctic Archaea Methanogenium frigidum and Methanococcoides burtonii
title_full Mechanisms of Thermal Adaptation Revealed From the Genomes of the Antarctic Archaea Methanogenium frigidum and Methanococcoides burtonii
title_fullStr Mechanisms of Thermal Adaptation Revealed From the Genomes of the Antarctic Archaea Methanogenium frigidum and Methanococcoides burtonii
title_full_unstemmed Mechanisms of Thermal Adaptation Revealed From the Genomes of the Antarctic Archaea Methanogenium frigidum and Methanococcoides burtonii
title_sort mechanisms of thermal adaptation revealed from the genomes of the antarctic archaea methanogenium frigidum and methanococcoides burtonii
publisher Cold Spring Harbor Laboratory Press
publishDate 2003
url http://www.genome.org/cgi/content/short/1180903v1
https://doi.org/10.1101/gr.1180903
geographic Antarctic
The Antarctic
geographic_facet Antarctic
The Antarctic
genre Antarc*
Antarctic
genre_facet Antarc*
Antarctic
op_relation http://www.genome.org/cgi/content/short/1180903v1
http://dx.doi.org/10.1101/gr.1180903
op_rights Copyright (C) 2003, Cold Spring Harbor Laboratory Press
op_doi https://doi.org/10.1101/gr.1180903
container_title Genome Research
container_volume 13
container_issue 7
container_start_page 1580
op_container_end_page 1588
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