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dc.contributor.authorSchwartz, LC
dc.contributor.authorGonzález, VL
dc.contributor.authorStrong, EE
dc.contributor.authorTruebano, M
dc.contributor.authorHilbish, TJ
dc.date.accessioned2024-04-29T14:02:46Z
dc.date.available2024-04-29T14:02:46Z
dc.date.issued2024-04-10
dc.identifier.issn1365-294X
dc.identifier.issn1365-294X
dc.identifier.othere17333
dc.identifier.urihttps://pearl.plymouth.ac.uk/handle/10026.1/22331
dc.description.abstract

Interspecific hybridization can lead to myriad outcomes, including transgressive phenotypes in which the hybrids are more fit than either parent species. Such hybrids may display important traits in the context of climate change, able to respond to novel environmental conditions not previously experienced by the parent populations. While this has been evaluated in an agricultural context, the role of transgressive hybrids under changing conditions in the wild remains largely unexplored; this is especially true regarding transgressive gene expression. Using the blue mussel species complex (genus Mytilus) as a model system, we investigated the effects of hybridization on temperature induced gene expression plasticity by comparing expression profiles in parental species and their hybrids following a 2-week thermal challenge. Hybrid expression plasticity was most often like one parent or the other (50%). However, a large fraction of genes (26%) showed transgressive expression plasticity (i.e. the change in gene expression was either greater or lesser than that of both parent species), while only 2% were intermediately plastic in hybrids. Despite their close phylogenetic relationship, there was limited overlap in the differentially expressed genes responding to temperature, indicating interspecific differences in the responses to high temperature in which responses from hybrids are distinct from both parent species. We also identified differentially expressed long non-coding RNAs (lncRNAs), which we suggest may contribute to species-specific differences in thermal tolerance. Our findings provide important insight into the impact of hybridization on gene expression under warming. We propose transgressive hybrids may play an important role in population persistence under future warming conditions.

dc.format.extente17333-
dc.format.mediumPrint-Electronic
dc.languageeng
dc.publisherWiley
dc.subjectclimate change
dc.subjectheterosis
dc.subjectMytilus
dc.subjectRNASeq
dc.subjectthermal tolerance
dc.titleTransgressive gene expression and expression plasticity under thermal stress in a stable hybrid zone.
dc.typejournal-article
dc.typeArticle
plymouth.author-urlhttps://www.ncbi.nlm.nih.gov/pubmed/38597343
plymouth.issue9
plymouth.volume33
plymouth.publisher-urlhttp://dx.doi.org/10.1111/mec.17333
plymouth.publication-statusPublished
plymouth.journalMolecular Ecology
dc.identifier.doi10.1111/mec.17333
plymouth.organisational-group|Plymouth
plymouth.organisational-group|Plymouth|Faculty of Science and Engineering
plymouth.organisational-group|Plymouth|Faculty of Science and Engineering|School of Biological and Marine Sciences
plymouth.organisational-group|Plymouth|REF 2021 Researchers by UoA
plymouth.organisational-group|Plymouth|Users by role
plymouth.organisational-group|Plymouth|Users by role|Current Academic staff
plymouth.organisational-group|Plymouth|REF 2021 Researchers by UoA|UoA07 Earth Systems and Environmental Sciences
plymouth.organisational-group|Plymouth|REF 2029 Researchers by UoA
plymouth.organisational-group|Plymouth|REF 2029 Researchers by UoA|UoA07 Earth Systems and Environmental Sciences
dc.publisher.placeEngland
dcterms.dateAccepted2024-03-18
dc.date.updated2024-04-29T14:02:45Z
dc.rights.embargodate2025-4-10
dc.identifier.eissn1365-294X
rioxxterms.versionofrecord10.1111/mec.17333


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