2017
DOI: 10.1111/mec.13983
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Transcriptomic imprints of adaptation to fresh water: parallel evolution of osmoregulatory gene expression in the Alewife

Abstract: Comparative approaches in physiological genomics offer an opportunity to understand the functional importance of genes involved in niche exploitation. We used populations of Alewife (Alosa pseudoharengus) to explore the transcriptional mechanisms that underlie adaptation to fresh water. Ancestrally anadromous Alewives have recently formed multiple, independently derived, landlocked populations, which exhibit reduced tolerance of saltwater and enhanced tolerance of fresh water. Using RNA-seq, we compared transc… Show more

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Cited by 68 publications
(72 citation statements)
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References 73 publications
(110 reference statements)
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“…To date, osmoregulatory capacity is considered to be the principal mechanism for crustacean adaptation to freshwater (Faria et al, 2011;Brennan et al, 2015;Velotta et al, 2017). However, osmoregulation cannot be the sole mechanism for freshwater adaptation.…”
Section: Crustacean Taxa In Evolutionary Studiesmentioning
confidence: 99%
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“…To date, osmoregulatory capacity is considered to be the principal mechanism for crustacean adaptation to freshwater (Faria et al, 2011;Brennan et al, 2015;Velotta et al, 2017). However, osmoregulation cannot be the sole mechanism for freshwater adaptation.…”
Section: Crustacean Taxa In Evolutionary Studiesmentioning
confidence: 99%
“…Tighter cell junctions are required for osmoregulation in freshwater compared with raised salinity conditions (Tipsmark et al, 2002;Brennan et al, 2015;Velotta et al, 2017). The intensity of selection pressure acts differently under different environmental conditions that in turn, can result in sequence divergence in the coding regions in a number of candidate genes controlling a specific phenotype while maintaining the sequences conserved in other genes (Ellegren, 2014;Berdan et al, 2015;Bailey and Bataillon, 2016 In a diverse array of crustacean species, regulation of internal body fluid content via haemolymph production is considered to be one of the principal mechanisms for maintaining an iso-osmotic body fluid concentration relative to the surrounding aquatic medium (McNamara et al, 2015;Mitterboeck et al, 2016).…”
Section: Signatures Of Selection Acting On Candidate Genesmentioning
confidence: 99%
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