0000000001318053

AUTHOR

Paul V. Debes

showing 3 related works from this author

Life-history genotype explains variation in migration activity in Atlantic salmon (Salmo salar)

2021

AbstractOne of the most important life-history continuums is the fast–slow axis, where “fast” individuals mature earlier than “slow” individuals. “Fast” individuals are predicted to be more active than “slow” individuals; high activity is required to maintain a fast life-history strategy. Recent meta-analyses revealed mixed evidence for such integration. Here, we test whether known life-history genotypes differ in activity expression by using Atlantic salmon (Salmo salar) as a model. In salmon, variation in Vgll3, a transcription co-factor, explains ∼40% of variation in maturation timing. We predicted that the allele related to early maturation (vgll3*E) would be associated with increased a…

0106 biological sciencesbiology010604 marine biology & hydrobiologyZoologybiology.organism_classificationExplained variation010603 evolutionary biology01 natural sciencesVariation (linguistics)Early maturationGenotypeHigh activity14. Life underwaterAlleleSalmoLife history
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Cytosine methylation patterns suggest a role of methylation in plastic and adaptive responses to temperature in European grayling (Thymallus thymallu…

2020

Temperature is a key environmental parameter affecting both the phenotypes and distributions of organisms, particularly ectotherms. Rapid organismal responses to thermal environmental changes have been described for several ectotherms; however, the underlying molecular mechanisms often remain unclear. Here, we studied whole genome cytosine methylation patterns of European grayling (Thymallus thymallus) embryos from five populations with contemporary adaptations of early life history traits at either 'colder' or 'warmer' spawning grounds. We reared fish embryos in a common garden experiment using two temperatures that resembled the 'colder' and 'warmer' conditions of the natal natural enviro…

0301 basic medicineCancer ResearchDATABASEsalmonidPopulationCytosine methylationSNPepigenetic variationCytosine03 medical and health sciences0302 clinical medicineINTRAGENIC DNA METHYLATIONthermal adaptationPHENOTYPIC PLASTICITYAnimalsADAPTATIONeducationMolecular BiologyGENE-EXPRESSIONLocal adaptationeducation.field_of_studyPhenotypic plasticitypromoterCLIMATE-CHANGEbiologyTemperatureGenetic VariationDNA Methylationbiology.organism_classificationThymallusEVOLUTIONEuropean graylingINSIGHTS030104 developmental biologyCpG siteEvolutionary biologydevelopmental plasticity030220 oncology & carcinogenesisEctotherm1181 Ecology evolutionary biologyDNA methylationTHERMAL PLASTICITYtranscriptionSalmonidaeResearch PaperEpigenetics
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Cytosine methylation patterns suggest a role of methylation in plastic and adaptive responses to temperature in European grayling (Thymallus thymallu…

2020

Temperature is a key environmental parameter affecting both the phenotypes and distributions of organisms, particularly ectotherms. Rapid organismal responses to thermal environmental changes have been described for several ectotherms; however, the underlying molecular mechanisms often remain unclear. Here, we studied whole genome cytosine methylation patterns of European grayling (Thymallus thymallus) embryos from five populations with contemporary adaptations of early life history traits at either ‘colder’ or ‘warmer’ spawning grounds. We reared fish embryos in a common garden experiment using two temperatures that resembled the ‘colder’ and ‘warmer’ conditions of the natal natural enviro…

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