Please use this identifier to cite or link to this item: http://hdl.handle.net/11667/155
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dc.contributorVallejo-Marin, Mario-
dc.contributor.otherOtheren_GB
dc.contributor.otherPlant Fellows (Marie Curie Actions, COFUND-University of Stirling)en_GB
dc.contributor.otherThe Carnegie Trusten_GB
dc.contributor.otherBotanical Society of Britain and Irelanden_GB
dc.coverage.spatialScotlanden_GB
dc.coverage.spatialChileen_GB
dc.coverage.spatialNorth Americaen_GB
dc.coverage.temporal2014-2019en_GB
dc.creatorVallejo-Marin, Mario-
dc.creatorMeeus, Sofie-
dc.creatorŠemberová, Kristýna-
dc.creatorDe Storme, Nico-
dc.creatorGeelen, Danny-
dc.date.accessioned2020-06-09T12:01:45Z-
dc.date.created2019-03-01-
dc.identifier.urihttp://hdl.handle.net/11667/155-
dc.description.abstractHybridisation is a creative evolutionary force, increasing genomic diversity, and facilitating adaptation and even speciation. Hybrids often face significant challenges to become established, including reduced fertility arising from genomic incompatibilities between their parents. Whole genome duplication in hybrids (allopolyploidy) can restore fertility, cause immediate phenotypic changes, and generate reproductive isolation. Yet the survival of polyploid lineages is uncertain, and few studies have compared the performance of recently formed allopolyploids and their parents under field conditions. Here we use natural and synthetically-produced hybrid and polyploid monkeyflowers (Mimulus spp.) to study how polyploidy contributes to the fertility, reproductive isolation, phenotype and performance of hybrids in the field. We find that polyploidisation restores fertility and that allopolyploids are reproductively isolated from their parents. The phenotype of allopolyploids displays the classic gigas effect of whole genome duplication, producing plants with larger organs and slower flowering. Field experiments indicate that survival of synthetic hybrids before and after polyploidisation is intermediate between the parents, whereas natural hybrids have higher survival than all the other taxa. We conclude that hybridisation and polyploidy can act as sources of genomic novelty, but adaptive evolution is key in mediating the establishment of young allopolyploid lineages.en_GB
dc.description.tableofcontentsVallejo-Marin et al. Plant Communications. Supplementary Datasets 1) Field_Leadhills_survenddat_for_pedigree_20200608.txt Data un survival for Leadhills field experiment. 2) Field_Stirling_datp_for_pedigree_20200608.txt Data on survival for field experiment carried out at the University of Stirling 3) Germination_datgs_20200608.csv Data on germination of intra- and interspecific crosses. 4) Glasshouse_phenotypic_data_morph1_20200608.csv Phenotypic data on common garden experiment carried out at the University of Stirling glasshousesen_GB
dc.language.isoengen_GB
dc.publisherUniversity of Stirling. Faculty of Natural Sciencesen_GB
dc.relationVallejo-Marin, M; Meeus, S; Šemberová, K; De Storme, N; Geelen, D (2020): Supplemental data for: "Effect of whole-genome duplication on the evolutionary rescue of sterile hybrid monkeyflowers". Version 1.0. University of Stirling. Faculty of Natural Sciences. Dataset. http://hdl.handle.net/11667/155en_GB
dc.relation.isreferencedbyMeeus, S., Šemberová, K., De Storme, N., Geelen, D., Vallejo-Marin, M. Effect of whole-genome duplication on the evolutionary rescue of sterile hybrid monkeyflowers. Plant Communications, 1 (6), Art. No.: 100093. https://doi.org/10.1016/j.xplc.2020.100093. Available from: http://hdl.handle.net/1893/31407en_GB
dc.rightsRights covered by the standard CC-BY 4.0 licence: https://creativecommons.org/licenses/by/4.0/en_GB
dc.sourceExperimental dataen_GB
dc.subjectAllopolyploiden_GB
dc.subjectErythrantheen_GB
dc.subjectMimulusen_GB
dc.subjectpolyploidyen_GB
dc.subjectspeciationen_GB
dc.subjectwhole genome duplicationen_GB
dc.subject.classification::Plant and crop science::Plant developmental biology::Plant developmental biologyen_GB
dc.subject.classification::Plant and crop science::Plant physiologyen_GB
dc.subject.classification::Plant and crop science::Plant physiology::Floweringen_GB
dc.subject.classification::Plant and crop science::Plant developmental biology::Gene networksen_GB
dc.subject.classification::Plant and crop science::Plant organisms::Flowering plantsen_GB
dc.titleSupplemental data for: "Effect of whole-genome duplication on the evolutionary rescue of sterile hybrid monkeyflowers"en_GB
dc.typedataseten_GB
dc.description.version1.0en_GB
dc.rights.embargoreasonPaper is currently in review (accepted with minor revisions)en_GB
dc.rights.embargoterms2020-07-02en_GB
dc.rights.embargoliftdate2020-07-02-
dc.contributor.emailmario.vallejo@stir.ac.uken_GB
dc.contributor.affiliationUniversity of Stirling (Biological and Environmental Sciences)en_GB
dc.rights.embargoenddate2020-07-01-
dc.date.publicationyear2020en_GB
Appears in Collections:University of Stirling Research Data

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