THE POPULATION GENETICS OF SPOROPHYTIC SELF-INCOMPATIBILITY IN THREE HYBRIDIZING SENECIO (ASTERACEAE) SPECIES WITH CONTRASTING POPULATION HISTORIES

THE POPULATION GENETICS OF SPOROPHYTIC SELF-INCOMPATIBILITY IN THREE HYBRIDIZING SENECIO (ASTERACEAE) SPECIES WITH CONTRASTING POPULATION HISTORIES

Hybridization generates evolutionary novelty and spreads adaptive variation. By promoting outcrossing, plant self-incompatibility (SI) systems also favor interspecific hybridization because the S locus is under strong negative frequency-dependent balancing selection. This study investigates the SI m...

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Bibliographic Details
Published in:Evolution Vol. 67; no. 5; pp. 1347 - 1367
Main Authors: Brennan, Adrian C., Harris, Stephen A., Hiscock, Simon J.
Format: Journal Article
Language:English
Published: United States Blackwell Publishing Ltd 01-05-2013
Wiley Subscription Services, Inc
Oxford University Press
Subjects:
Alleles
Balancing selection
Comparative analysis
dominance interactions
Evolution
Evolutionary biology
Evolutionary genetics
Gene Flow
Genetic diversity
Genetic hybridization
Genetic loci
Genetic markers
Hybridity
Hybridization
Hybridization, Genetic
introgression
mating system
Plants
Pollination - genetics
Population - genetics
S allele
S locus
Self-Incompatibility in Flowering Plants - genetics
Senecio - genetics
Senecio squalidus
Taxa
United Kingdom > UK
Online Access:Get full text
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Summary:Hybridization generates evolutionary novelty and spreads adaptive variation. By promoting outcrossing, plant self-incompatibility (SI) systems also favor interspecific hybridization because the S locus is under strong negative frequency-dependent balancing selection. This study investigates the SI mating systems of three hybridizing Senecio species with contrasting population histories. Senecio aethnensis and S. chrysanthemifolius native to Sicily, form a hybrid zone at intermediate altitudes on Mount Etna, and their neo-homoploid hybrid species, S. squalidus, has colonized disturbed urban habitats in the UK during the last 150 years. We show that all three species express sporophytic SI (SSI), where pollen incompatibility is controlled by the diploid parental genome, and that SSI is inherited and functions normally in hybrids. Large-scale crossing studies of wild sampled populations allowed direct comparison of SSI between species and found that the main impacts of colonization in S. squalidus compared to Sicilian Senecio was a reduced number of S alleles, increased S allele frequencies, and increased interpopulation S allele sharing. In general, many S alleles were shared between species and the S locus showed reduced intra- and interspecific population genetic structure compared to molecular genetic markers, indicative of enhanced effective gene flow due to balancing selection.
Bibliography:ark:/67375/WNG-18R2BHHV-F
FP7-REGPOT 2010-1 - No. 264125
Natural Environment Research Council - No. NER/A/S/2003/00345
Lady Emily Smyth Agricultural Research Station, University of Bristol
istex:8D5E36C93E3B66D95EA879D5F7BD06318AC6DDBD
ArticleID:EVO12033
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0014-3820
1558-5646
DOI:10.1111/evo.12033