EVOLUTION OF TRIPLOIDY IN APIOS AMERICANA (LEGUMINOSAE) REVEALED BY GENEALOGICAL ANALYSIS OF THE HISTONE H3-D GENE

Autotriploidy is normally considered to be maladaptive in plants because of its association with high levels of sterility. Nonetheless, triploid individuals are found in many plant species and play important roles in plant evolution, in particular as a first step toward tetraploid formation. However...

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Published in:Evolution 2004-02, Vol.58 (2), p.284-295
Main Authors: Joly, Simon, Bruneau, Anne
Format: Article
Language:English
Subjects:
Alleles
Cytogeography
Diploidy
DNA Primers
Evolution
Evolution, Molecular
Fabaceae - genetics
Flow Cytometry
Gene Components
Genes
Genetic diversity
Genetic mutation
Genetic Variation
Geography
Habitats
haplotype network
Haplotypes
Haplotypes - genetics
Histones
Histones - genetics
multiple origins
North America
Parsimony
Phylogeny
phylogeography
Plant populations
Plants
Polymerase chain reaction
Polymorphism, Single-Stranded Conformational
Polyploidy
REGULAR ARTICLES
Sequence Analysis, DNA
statistical parsimony
Triploidy
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Bruneau, Anne
description Autotriploidy is normally considered to be maladaptive in plants because of its association with high levels of sterility. Nonetheless, triploid individuals are found in many plant species and play important roles in plant evolution, in particular as a first step toward tetraploid formation. However, few studies have addressed the evolutionary potential of triploid lineages, which may principally suffer from the impossibility of combining useful mutations in a single genome due to their low fertility. Therefore, triploids acquire genetic diversity only via recurrent evolution and somaclonal mutation. This study evaluates the potential of multiple origins of polyploidy as a source of genetic diversity in Apios americana, a North American legume that possesses both diploid and triploid populations. Ploidy level determination via flow cytometry shows that triploids are mainly restricted to the portion of eastern North America that was covered by ice during the Wisconsinan glaciation 18,000 years ago. This distribution implies that either selection or postglaciation colonization played a role in shaping this cytogeographic pattern. A haplotype network of the single copy nuclear histone H3-D gene reconstructed using statistical parsimony, together with single-strand conformational polymorphism analysis, shows that autotriploidy evolved at least three times in this species and that heterozygosity is high in triploids. The genetic diversity found in A. americana resulting from recurrent evolution and fixed heterozygosity increases the likelihood of producing successful genotypes and may give the opportunity for triploids to be better fit than diploids in new habitats. This suggests that triploid lineages can exhibit evolutionary potential of their own, and do not serve solely as a first step toward tetraploid formation.
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source JSTOR Archival Journals and Primary Sources Collection
subjects Alleles
Cytogeography
Diploidy
DNA Primers
Evolution
Evolution, Molecular
Fabaceae - genetics
Flow Cytometry
Gene Components
Genes
Genetic diversity
Genetic mutation
Genetic Variation
Geography
Habitats
haplotype network
Haplotypes
Haplotypes - genetics
Histones
Histones - genetics
multiple origins
North America
Parsimony
Phylogeny
phylogeography
Plant populations
Plants
Polymerase chain reaction
Polymorphism, Single-Stranded Conformational
Polyploidy
REGULAR ARTICLES
Sequence Analysis, DNA
statistical parsimony
Triploidy
title EVOLUTION OF TRIPLOIDY IN APIOS AMERICANA (LEGUMINOSAE) REVEALED BY GENEALOGICAL ANALYSIS OF THE HISTONE H3-D GENE
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