Distribution of ancestral proto-Actinopterygian chromosome arms within the genomes of 4R-derivative salmonid fishes (Rainbow trout and Atlantic salmon)

Comparative genomic studies suggest that the modern day assemblage of ray-finned fishes have descended from an ancestral grouping of fishes that possessed 12-13 linkage groups. All jawed vertebrates are postulated to have experienced two whole genome duplications (WGD) in their ancestry (2R duplicat...

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Published in:BMC Genomics
Main Authors: Danzmann, R.G., Davidson, E.A., Ferguson, M.M., Gharbi, K., Koop, B.F., Hoyheim, B., Lien, S., Lubieniecki, K.P., Moghadam, H.K., Park, J., Phillips, R.B., Davidson, W.S.
Format: Article in Journal/Newspaper
Language:unknown
Published: Biomed Central 2008
Subjects:
Atlantic salmon
Online Access:http://eprints.gla.ac.uk/36094/
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spelling ftuglasgow:oai:eprints.gla.ac.uk:36094 2023-05-15T15:31:01+02:00 Distribution of ancestral proto-Actinopterygian chromosome arms within the genomes of 4R-derivative salmonid fishes (Rainbow trout and Atlantic salmon) Danzmann, R.G. Davidson, E.A. Ferguson, M.M. Gharbi, K. Koop, B.F. Hoyheim, B. Lien, S. Lubieniecki, K.P. Moghadam, H.K. Park, J. Phillips, R.B. Davidson, W.S. 2008 http://eprints.gla.ac.uk/36094/ unknown Biomed Central Danzmann, R.G. et al. (2008) Distribution of ancestral proto-Actinopterygian chromosome arms within the genomes of 4R-derivative salmonid fishes (Rainbow trout and Atlantic salmon). BMC Genomics <http://eprints.gla.ac.uk/view/journal_volume/BMC_Genomics.html>, 9, (doi:10.1186/1471-2164-9-557 <http://dx.doi.org/10.1186/1471-2164-9-557>) Articles PeerReviewed 2008 ftuglasgow https://doi.org/10.1186/1471-2164-9-557 2020-01-09T23:46:46Z Comparative genomic studies suggest that the modern day assemblage of ray-finned fishes have descended from an ancestral grouping of fishes that possessed 12-13 linkage groups. All jawed vertebrates are postulated to have experienced two whole genome duplications (WGD) in their ancestry (2R duplication). Salmonids have experienced one additional WGD (4R duplication event) compared to most extant teleosts which underwent a further 3R WGD compared to other vertebrates. We describe the organization of the 4R chromosomal segments of the proto-rayfinned fish karyotype in Atlantic salmon and rainbow trout based upon their comparative syntenies with two model species of 3R ray-finned fishes. Results: Evidence is presented for the retention of large whole-arm affinities between the ancestral linkage groups of the ray-finned fishes, and the 50 homeologous chromosomal segments in Atlantic salmon and rainbow trout. In the comparisons between the two salmonid species, there is also evidence for the retention of large whole-arm homeologous affinities that are associated with the retention of duplicated markers. Five of the 7 pairs of chromosomal arm regions expressing the highest level of duplicate gene expression in rainbow trout share homologous synteny to the 5 pairs of homeologs with the greatest duplicate gene expression in Atlantic salmon. These regions are derived from proto-Actinopterygian linkage groups B, C, E, J and K. Conclusion: Two chromosome arms in Danio rerio and Oryzias latipes (descendants of the 3R duplication) can, in most instances be related to at least 4 whole or partial chromosomal arms in the salmonid species. Multiple arm assignments in the two salmonid species do not clearly support a 13 proto-linkage group model, and suggest that a 12 proto-linkage group arrangement (i.e., a separate single chromosome duplication and ancestral fusion/fissions/recombination within the putative G/H/I groupings) may have occurred in the more basal soft-rayed fishes. We also found evidence supporting the model that ancestral linkage group M underwent a single chromosome duplication following the 3R duplication. In the salmonids, the M ancestral linkage groups are localized to 5 whole arm, and 3 partial arm regions (i.e., 6 whole arm regions expected). Thus, 3 distinct ancestral linkage groups are postulated to have existed in the G/H and M lineage chromosomes in the ancestor of the salmonids. Article in Journal/Newspaper Atlantic salmon University of Glasgow: Enlighten - Publications BMC Genomics 9 1 557
institution Open Polar
collection University of Glasgow: Enlighten - Publications
op_collection_id ftuglasgow
language unknown
description Comparative genomic studies suggest that the modern day assemblage of ray-finned fishes have descended from an ancestral grouping of fishes that possessed 12-13 linkage groups. All jawed vertebrates are postulated to have experienced two whole genome duplications (WGD) in their ancestry (2R duplication). Salmonids have experienced one additional WGD (4R duplication event) compared to most extant teleosts which underwent a further 3R WGD compared to other vertebrates. We describe the organization of the 4R chromosomal segments of the proto-rayfinned fish karyotype in Atlantic salmon and rainbow trout based upon their comparative syntenies with two model species of 3R ray-finned fishes. Results: Evidence is presented for the retention of large whole-arm affinities between the ancestral linkage groups of the ray-finned fishes, and the 50 homeologous chromosomal segments in Atlantic salmon and rainbow trout. In the comparisons between the two salmonid species, there is also evidence for the retention of large whole-arm homeologous affinities that are associated with the retention of duplicated markers. Five of the 7 pairs of chromosomal arm regions expressing the highest level of duplicate gene expression in rainbow trout share homologous synteny to the 5 pairs of homeologs with the greatest duplicate gene expression in Atlantic salmon. These regions are derived from proto-Actinopterygian linkage groups B, C, E, J and K. Conclusion: Two chromosome arms in Danio rerio and Oryzias latipes (descendants of the 3R duplication) can, in most instances be related to at least 4 whole or partial chromosomal arms in the salmonid species. Multiple arm assignments in the two salmonid species do not clearly support a 13 proto-linkage group model, and suggest that a 12 proto-linkage group arrangement (i.e., a separate single chromosome duplication and ancestral fusion/fissions/recombination within the putative G/H/I groupings) may have occurred in the more basal soft-rayed fishes. We also found evidence supporting the model that ancestral linkage group M underwent a single chromosome duplication following the 3R duplication. In the salmonids, the M ancestral linkage groups are localized to 5 whole arm, and 3 partial arm regions (i.e., 6 whole arm regions expected). Thus, 3 distinct ancestral linkage groups are postulated to have existed in the G/H and M lineage chromosomes in the ancestor of the salmonids.
format Article in Journal/Newspaper
author Danzmann, R.G.
Davidson, E.A.
Ferguson, M.M.
Gharbi, K.
Koop, B.F.
Hoyheim, B.
Lien, S.
Lubieniecki, K.P.
Moghadam, H.K.
Park, J.
Phillips, R.B.
Davidson, W.S.
spellingShingle Danzmann, R.G.
Davidson, E.A.
Ferguson, M.M.
Gharbi, K.
Koop, B.F.
Hoyheim, B.
Lien, S.
Lubieniecki, K.P.
Moghadam, H.K.
Park, J.
Phillips, R.B.
Davidson, W.S.
Distribution of ancestral proto-Actinopterygian chromosome arms within the genomes of 4R-derivative salmonid fishes (Rainbow trout and Atlantic salmon)
author_facet Danzmann, R.G.
Davidson, E.A.
Ferguson, M.M.
Gharbi, K.
Koop, B.F.
Hoyheim, B.
Lien, S.
Lubieniecki, K.P.
Moghadam, H.K.
Park, J.
Phillips, R.B.
Davidson, W.S.
author_sort Danzmann, R.G.
title Distribution of ancestral proto-Actinopterygian chromosome arms within the genomes of 4R-derivative salmonid fishes (Rainbow trout and Atlantic salmon)
title_short Distribution of ancestral proto-Actinopterygian chromosome arms within the genomes of 4R-derivative salmonid fishes (Rainbow trout and Atlantic salmon)
title_full Distribution of ancestral proto-Actinopterygian chromosome arms within the genomes of 4R-derivative salmonid fishes (Rainbow trout and Atlantic salmon)
title_fullStr Distribution of ancestral proto-Actinopterygian chromosome arms within the genomes of 4R-derivative salmonid fishes (Rainbow trout and Atlantic salmon)
title_full_unstemmed Distribution of ancestral proto-Actinopterygian chromosome arms within the genomes of 4R-derivative salmonid fishes (Rainbow trout and Atlantic salmon)
title_sort distribution of ancestral proto-actinopterygian chromosome arms within the genomes of 4r-derivative salmonid fishes (rainbow trout and atlantic salmon)
publisher Biomed Central
publishDate 2008
url http://eprints.gla.ac.uk/36094/
genre Atlantic salmon
genre_facet Atlantic salmon
op_relation Danzmann, R.G. et al. (2008) Distribution of ancestral proto-Actinopterygian chromosome arms within the genomes of 4R-derivative salmonid fishes (Rainbow trout and Atlantic salmon). BMC Genomics <http://eprints.gla.ac.uk/view/journal_volume/BMC_Genomics.html>, 9, (doi:10.1186/1471-2164-9-557 <http://dx.doi.org/10.1186/1471-2164-9-557>)
op_doi https://doi.org/10.1186/1471-2164-9-557
container_title BMC Genomics
container_volume 9
container_issue 1
container_start_page 557
_version_ 1766361498881359872

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