Data from: Origins and functional diversification of salinity-responsive Na+, K+ ATPase α1 paralogs in salmonids

The Salmoniform whole-genome duplication is hypothesized to have facilitated the evolution of anadromy, but little is known about the contribution of paralogs from this event to the physiological performance traits required for anadromy, such as salinity tolerance. Here, we determined when two candi...

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Main Authors: Dalziel, Anne C., Bittman, Jesse, Mandic, Milica, Ou, Michelle, Schulte, Patricia M.
Format: Other/Unknown Material
Language:unknown
Published: Zenodo 2014
Subjects:
Osmerus mordax
sodium potassium ATPase
Salmo salar
Coregonus clupeaformis
Esox lucius
Oncorhynchus mykiss
Salvelinus alpinus
Thymallus arcticus
Gene Structure and Function
Online Access:https://doi.org/10.5061/dryad.5c6v7
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author Dalziel, Anne C.
Bittman, Jesse
Mandic, Milica
Ou, Michelle
Schulte, Patricia M.
author_facet Dalziel, Anne C.
Bittman, Jesse
Mandic, Milica
Ou, Michelle
Schulte, Patricia M.
author_sort Dalziel, Anne C.
collection Zenodo
description The Salmoniform whole-genome duplication is hypothesized to have facilitated the evolution of anadromy, but little is known about the contribution of paralogs from this event to the physiological performance traits required for anadromy, such as salinity tolerance. Here, we determined when two candidate salinity-responsive paralogs of the Na+, K+ ATPase α subunit (α1a and α1b) evolved and studied their evolutionary trajectories and tissue-specific expression patterns. We found that these paralogs arose during a small scale duplication event prior to the Salmoniform, but after the teleost, whole-genome duplication. The 'freshwater paralog' (α1a) is primarily expressed in the gills of Salmoniformes and an unduplicated freshwater sister-species (Esox lucius), and experienced positive selection in the fresh-water ancestor of Salmoniformes and Esociformes. Contrary to our predictions, the 'saltwater paralog' (α1b), which is more widely expressed than α1a, did not experience positive selection during the evolution of anadromy in the Coregoninae and Salmonine. To determine if parallel mutations in Na+, K+ ATPase α1 may contribute to salinity tolerance in other fishes, we studied independently evolved salinity-responsive Na+, K+ ATPase α1 paralogs in Anabas testudineus and Oreochromis mossambicus. We found that a quarter of the mutations occurring between salmonid α1a and α1b in functionally important sites also evolved in parallel in at least one of these species. Together, these data argue that paralogs contributing to salinity tolerance evolved prior to the Salmoniform whole-genome duplication and that strong selection and/or functional constraints have led to parallel evolution in salinity-responsive Na+, K+ ATPase α1 paralogs in fishes. Key for Figure 2 Accession numbers for all sequences used in Figure 2 and the short name used in sequence files for PAML and alignments (Appendix S1). Fig2_SequenceIDs_to_GenbankNumbers.txt Fig4- Pike real time data Gene expression of Na+, K+ ATPase paralogs and 18S in the ...
format Other/Unknown Material
genre Salmo salar
Salvelinus alpinus
Thymallus arcticus
genre_facet Salmo salar
Salvelinus alpinus
Thymallus arcticus
id ftzenodo:oai:zenodo.org:4941973
institution Open Polar
language unknown
op_collection_id ftzenodo
op_doi https://doi.org/10.5061/dryad.5c6v710.1111/mec.12828
op_relation https://doi.org/10.1111/mec.12828
https://zenodo.org/communities/dryad
https://doi.org/10.5061/dryad.5c6v7
oai:zenodo.org:4941973
op_rights info:eu-repo/semantics/openAccess
Creative Commons Zero v1.0 Universal
https://creativecommons.org/publicdomain/zero/1.0/legalcode
publishDate 2014
publisher Zenodo
record_format openpolar
spelling ftzenodo:oai:zenodo.org:4941973 2025-01-17T00:34:11+00:00 Data from: Origins and functional diversification of salinity-responsive Na+, K+ ATPase α1 paralogs in salmonids Dalziel, Anne C. Bittman, Jesse Mandic, Milica Ou, Michelle Schulte, Patricia M. 2014-06-05 https://doi.org/10.5061/dryad.5c6v7 unknown Zenodo https://doi.org/10.1111/mec.12828 https://zenodo.org/communities/dryad https://doi.org/10.5061/dryad.5c6v7 oai:zenodo.org:4941973 info:eu-repo/semantics/openAccess Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode Osmerus mordax sodium potassium ATPase Salmo salar Coregonus clupeaformis Esox lucius Oncorhynchus mykiss Salvelinus alpinus Thymallus arcticus Gene Structure and Function info:eu-repo/semantics/other 2014 ftzenodo https://doi.org/10.5061/dryad.5c6v710.1111/mec.12828 2024-12-05T04:38:20Z The Salmoniform whole-genome duplication is hypothesized to have facilitated the evolution of anadromy, but little is known about the contribution of paralogs from this event to the physiological performance traits required for anadromy, such as salinity tolerance. Here, we determined when two candidate salinity-responsive paralogs of the Na+, K+ ATPase α subunit (α1a and α1b) evolved and studied their evolutionary trajectories and tissue-specific expression patterns. We found that these paralogs arose during a small scale duplication event prior to the Salmoniform, but after the teleost, whole-genome duplication. The 'freshwater paralog' (α1a) is primarily expressed in the gills of Salmoniformes and an unduplicated freshwater sister-species (Esox lucius), and experienced positive selection in the fresh-water ancestor of Salmoniformes and Esociformes. Contrary to our predictions, the 'saltwater paralog' (α1b), which is more widely expressed than α1a, did not experience positive selection during the evolution of anadromy in the Coregoninae and Salmonine. To determine if parallel mutations in Na+, K+ ATPase α1 may contribute to salinity tolerance in other fishes, we studied independently evolved salinity-responsive Na+, K+ ATPase α1 paralogs in Anabas testudineus and Oreochromis mossambicus. We found that a quarter of the mutations occurring between salmonid α1a and α1b in functionally important sites also evolved in parallel in at least one of these species. Together, these data argue that paralogs contributing to salinity tolerance evolved prior to the Salmoniform whole-genome duplication and that strong selection and/or functional constraints have led to parallel evolution in salinity-responsive Na+, K+ ATPase α1 paralogs in fishes. Key for Figure 2 Accession numbers for all sequences used in Figure 2 and the short name used in sequence files for PAML and alignments (Appendix S1). Fig2_SequenceIDs_to_GenbankNumbers.txt Fig4- Pike real time data Gene expression of Na+, K+ ATPase paralogs and 18S in the ... Other/Unknown Material Salmo salar Salvelinus alpinus Thymallus arcticus Zenodo
spellingShingle Osmerus mordax
sodium potassium ATPase
Salmo salar
Coregonus clupeaformis
Esox lucius
Oncorhynchus mykiss
Salvelinus alpinus
Thymallus arcticus
Gene Structure and Function
Dalziel, Anne C.
Bittman, Jesse
Mandic, Milica
Ou, Michelle
Schulte, Patricia M.
Data from: Origins and functional diversification of salinity-responsive Na+, K+ ATPase α1 paralogs in salmonids
title Data from: Origins and functional diversification of salinity-responsive Na+, K+ ATPase α1 paralogs in salmonids
title_full Data from: Origins and functional diversification of salinity-responsive Na+, K+ ATPase α1 paralogs in salmonids
title_fullStr Data from: Origins and functional diversification of salinity-responsive Na+, K+ ATPase α1 paralogs in salmonids
title_full_unstemmed Data from: Origins and functional diversification of salinity-responsive Na+, K+ ATPase α1 paralogs in salmonids
title_short Data from: Origins and functional diversification of salinity-responsive Na+, K+ ATPase α1 paralogs in salmonids
title_sort data from: origins and functional diversification of salinity-responsive na+, k+ atpase α1 paralogs in salmonids
topic Osmerus mordax
sodium potassium ATPase
Salmo salar
Coregonus clupeaformis
Esox lucius
Oncorhynchus mykiss
Salvelinus alpinus
Thymallus arcticus
Gene Structure and Function
topic_facet Osmerus mordax
sodium potassium ATPase
Salmo salar
Coregonus clupeaformis
Esox lucius
Oncorhynchus mykiss
Salvelinus alpinus
Thymallus arcticus
Gene Structure and Function
url https://doi.org/10.5061/dryad.5c6v7

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