Genetic and epigenetic variations underpin rapid adaptation of oyster populations (Crassostrea gigas) to Pacific Oyster Mortality Syndrome (POMS)
In this study, we aimed at identifying the genetic and epigenetic signatures and their relative contribution to the ongoing adaptation to the mass selective pressure induced by POMS.
Data access Chemin d'accès |
/home/ref-bioinfo-public/ifremer/ihpe/GEM
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Date(s) Date(s) |
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Author(s) Auteur(s) |
Gawra Janan
(
UPVD
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De Lorgeril Julien ( IFREMER ) Gueguen Yannick ( IFREMER ) Escoubas Jean Michel ( IFREMER ) Petton Bruno ( IFREMER ) Morga Benjamin ( IFREMER ) Destoumieux-Garzon Delphine ( IFREMER ) Mitta Guillaume ( IFREMER ) Degremont Lionel ( IFREMER ) Vidal Dupiol Jeremie ( IFREMER ) |
Contact(s) Contact(s) |
IFREMER
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Source Source |
IHPE |
Lineage Généalogie |
In this study, we used a combination of whole exome capture of bisulfite converted DNA, next-generation sequencing and a variuous statistiacal approach to revealed that natural oyster populations differentially exposed to POMS display signatures of selection both in their genome (i.e. single nucleotide polymorphism) and epigenome (i.e. DNA methylation in the CG context). |
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Spatial informations Informations géographiques |
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Citation proposal Proposition de citation
Gawra Janan , De Lorgeril Julien , Gueguen Yannick , Escoubas Jean Michel , Petton Bruno , Morga Benjamin , Destoumieux-Garzon Delphine , Mitta Guillaume , Degremont Lionel , Vidal Dupiol Jeremie (2023).Genetic and epigenetic variations underpin rapid adaptation of oyster populations (Crassostrea gigas) to Pacific Oyster Mortality Syndrome (POMS).IFREMER
https://doi.org/10.12770/6a9d16eb-d269-4598-9fbd-e67f8bfa7baf