Linking functional molecular variation with environmental gradients: myosin gene diversity in a crustacean broadly distributed across variable thermal environments

To investigate the molecular basis of temperature adaptation in natural populations we used the candidate gene approach, targeting the myosin heavy chain (MyHC) gene. The functional effects of genetic variation in MyHC have been well characterised, and changes in the flexibility of the surface loops...

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Published in:Gene
Main Authors: Lunt, D. H., Rock, J., Magnay, J. L., Beech, S., El Haj, A. J., Goldspink, G., Whiteley, N. M.
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2009
Subjects:
Skeletal muscle
Myosin heavy chain
Temperature
Latitude
Adaptation
Amphipoda
Arctic
Online Access:https://hull-repository.worktribe.com/output/391146
https://doi.org/10.1016/j.gene.2009.02.008
id ftunivhullir:oai:hull-repository.worktribe.com:391146
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spelling ftunivhullir:oai:hull-repository.worktribe.com:391146 2024-09-09T19:27:40+00:00 Linking functional molecular variation with environmental gradients: myosin gene diversity in a crustacean broadly distributed across variable thermal environments Lunt, D. H. Rock, J. Magnay, J. L. Beech, S. El Haj, A. J. Goldspink, G. Whiteley, N. M. 2009-02-21 https://hull-repository.worktribe.com/output/391146 https://doi.org/10.1016/j.gene.2009.02.008 English eng Elsevier https://hull-repository.worktribe.com/output/391146 GENE Volume 437 Issue 1-2 Pagination 60-70 doi:https://doi.org/10.1016/j.gene.2009.02.008 0378-1119 doi:10.1016/j.gene.2009.02.008 Skeletal muscle Myosin heavy chain Temperature Latitude Adaptation Amphipoda Journal Article 2009 ftunivhullir https://doi.org/10.1016/j.gene.2009.02.008 2024-07-22T14:05:20Z To investigate the molecular basis of temperature adaptation in natural populations we used the candidate gene approach, targeting the myosin heavy chain (MyHC) gene. The functional effects of genetic variation in MyHC have been well characterised, and changes in the flexibility of the surface loops 1 and 2, caused by modulations in length, amino acid composition and charge can play an important role in thermal acclimation in fish. However, the extent that MyHC diversity is influenced by natural thermal gradients is largely unknown. Sequence variation in MyHC cDNA was examined in 7 species of gammarid amphipod with broad latitudinal distributions and differing intertidal thermal habitats in the NE Atlantic and Arctic Oceans. A high degree of diversity was detected in the loop 1 nucleotide sequences, although not all are likely to be functional transcripts, and their deduced amino acid Sequences indicated no differences in the length and charge of loop 1 and associated binding kinetics. Four isoforms for loop 2 were detected which differed ill sequence length and charge distribution, suggesting functional differences in sliding velocities and ATPase activities. While all species, and indeed most individuals, expressed multiple loop 2 isoforms, analysis of the two species with the greatest number of sequenced clones revealed that G. duebeni, a high-shore species with the highest thermal tolerance, expressed a greater diversity of forms than G. oceanicus, a low intertidal species more sensitive to temperature change. Latitude further influenced MyHC loop 2 diversity in G. duebeni, as the number of isoforms increased in the northern populations. Species-specific variations in MyHC diversity were observed, irrespective of phylogenetic associations revealed by analysis of the mitochondrial cytochrome oxidase 1 (CO1) gene. Overall, it appears that the temporal temperature variations associated with higher intertidal habitat may be a greater selective agent for MyHC isoform diversity in gammarid muscles than broad ... Article in Journal/Newspaper Arctic University of Hull: Repository@Hull Arctic Gene 437 1-2 60 70
institution Open Polar
collection University of Hull: Repository@Hull
op_collection_id ftunivhullir
language English
topic Skeletal muscle
Myosin heavy chain
Temperature
Latitude
Adaptation
Amphipoda
spellingShingle Skeletal muscle
Myosin heavy chain
Temperature
Latitude
Adaptation
Amphipoda
Lunt, D. H.
Rock, J.
Magnay, J. L.
Beech, S.
El Haj, A. J.
Goldspink, G.
Whiteley, N. M.
Linking functional molecular variation with environmental gradients: myosin gene diversity in a crustacean broadly distributed across variable thermal environments
topic_facet Skeletal muscle
Myosin heavy chain
Temperature
Latitude
Adaptation
Amphipoda
description To investigate the molecular basis of temperature adaptation in natural populations we used the candidate gene approach, targeting the myosin heavy chain (MyHC) gene. The functional effects of genetic variation in MyHC have been well characterised, and changes in the flexibility of the surface loops 1 and 2, caused by modulations in length, amino acid composition and charge can play an important role in thermal acclimation in fish. However, the extent that MyHC diversity is influenced by natural thermal gradients is largely unknown. Sequence variation in MyHC cDNA was examined in 7 species of gammarid amphipod with broad latitudinal distributions and differing intertidal thermal habitats in the NE Atlantic and Arctic Oceans. A high degree of diversity was detected in the loop 1 nucleotide sequences, although not all are likely to be functional transcripts, and their deduced amino acid Sequences indicated no differences in the length and charge of loop 1 and associated binding kinetics. Four isoforms for loop 2 were detected which differed ill sequence length and charge distribution, suggesting functional differences in sliding velocities and ATPase activities. While all species, and indeed most individuals, expressed multiple loop 2 isoforms, analysis of the two species with the greatest number of sequenced clones revealed that G. duebeni, a high-shore species with the highest thermal tolerance, expressed a greater diversity of forms than G. oceanicus, a low intertidal species more sensitive to temperature change. Latitude further influenced MyHC loop 2 diversity in G. duebeni, as the number of isoforms increased in the northern populations. Species-specific variations in MyHC diversity were observed, irrespective of phylogenetic associations revealed by analysis of the mitochondrial cytochrome oxidase 1 (CO1) gene. Overall, it appears that the temporal temperature variations associated with higher intertidal habitat may be a greater selective agent for MyHC isoform diversity in gammarid muscles than broad ...
format Article in Journal/Newspaper
author Lunt, D. H.
Rock, J.
Magnay, J. L.
Beech, S.
El Haj, A. J.
Goldspink, G.
Whiteley, N. M.
author_facet Lunt, D. H.
Rock, J.
Magnay, J. L.
Beech, S.
El Haj, A. J.
Goldspink, G.
Whiteley, N. M.
author_sort Lunt, D. H.
title Linking functional molecular variation with environmental gradients: myosin gene diversity in a crustacean broadly distributed across variable thermal environments
title_short Linking functional molecular variation with environmental gradients: myosin gene diversity in a crustacean broadly distributed across variable thermal environments
title_full Linking functional molecular variation with environmental gradients: myosin gene diversity in a crustacean broadly distributed across variable thermal environments
title_fullStr Linking functional molecular variation with environmental gradients: myosin gene diversity in a crustacean broadly distributed across variable thermal environments
title_full_unstemmed Linking functional molecular variation with environmental gradients: myosin gene diversity in a crustacean broadly distributed across variable thermal environments
title_sort linking functional molecular variation with environmental gradients: myosin gene diversity in a crustacean broadly distributed across variable thermal environments
publisher Elsevier
publishDate 2009
url https://hull-repository.worktribe.com/output/391146
https://doi.org/10.1016/j.gene.2009.02.008
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_relation https://hull-repository.worktribe.com/output/391146
GENE
Volume 437
Issue 1-2
Pagination 60-70
doi:https://doi.org/10.1016/j.gene.2009.02.008
0378-1119
doi:10.1016/j.gene.2009.02.008
op_doi https://doi.org/10.1016/j.gene.2009.02.008
container_title Gene
container_volume 437
container_issue 1-2
container_start_page 60
op_container_end_page 70
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