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Subgenome Dominance in an Interspecific Hybrid, Synthetic Allopolyploid, and a 140-Year-Old Naturally Established Neo-Allopolyploid Monkeyflower
Subgenome Dominance in an Interspecific Hybrid, Synthetic Allopolyploid, and a 140-Year-Old Naturally Established Neo-Allopolyploid Monkeyflower
by Edger, Patrick P. , Bewick, Adam J. , Pires, J. Chris , Smith, Gregory D. , Vallejo-Marin, Mario , Yuan, Yaowu , Childs, Kevin L. , Bowman, Megan J. , Washburn, Jacob D. , Cooley, Arielle M. , Puzey, Joshua R. , Schmitz, Robert J. , McKain, Michael R. , Platts, Adrian E. , Ji, Lexiang
in Autosomal dominant inheritance / Bias / DNA methylation / DNA Methylation - genetics / Dominance / Gene Duplication / Gene expression / Gene Expression Regulation / Gene Expression Regulation, Plant / Genes / Genetic / Genome / Genome, Plant / Genomes / Heterosis / Hybridization / Hybridization, Genetic / Interspecific / Methylation / Mimulus - genetics / Phylogeny / Plant / Polyploidy / Species Specificity / Transposons
2017
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Subgenome Dominance in an Interspecific Hybrid, Synthetic Allopolyploid, and a 140-Year-Old Naturally Established Neo-Allopolyploid Monkeyflower
by Edger, Patrick P. , Bewick, Adam J. , Pires, J. Chris , Smith, Gregory D. , Vallejo-Marin, Mario , Yuan, Yaowu , Childs, Kevin L. , Bowman, Megan J. , Washburn, Jacob D. , Cooley, Arielle M. , Puzey, Joshua R. , Schmitz, Robert J. , McKain, Michael R. , Platts, Adrian E. , Ji, Lexiang
in Autosomal dominant inheritance / Bias / DNA methylation / DNA Methylation - genetics / Dominance / Gene Duplication / Gene expression / Gene Expression Regulation / Gene Expression Regulation, Plant / Genes / Genetic / Genome / Genome, Plant / Genomes / Heterosis / Hybridization / Hybridization, Genetic / Interspecific / Methylation / Mimulus - genetics / Phylogeny / Plant / Polyploidy / Species Specificity / Transposons
2017
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Subgenome Dominance in an Interspecific Hybrid, Synthetic Allopolyploid, and a 140-Year-Old Naturally Established Neo-Allopolyploid Monkeyflower
Subgenome Dominance in an Interspecific Hybrid, Synthetic Allopolyploid, and a 140-Year-Old Naturally Established Neo-Allopolyploid Monkeyflower
by Edger, Patrick P. , Bewick, Adam J. , Pires, J. Chris , Smith, Gregory D. , Vallejo-Marin, Mario , Yuan, Yaowu , Childs, Kevin L. , Bowman, Megan J. , Washburn, Jacob D. , Cooley, Arielle M. , Puzey, Joshua R. , Schmitz, Robert J. , McKain, Michael R. , Platts, Adrian E. , Ji, Lexiang
in Autosomal dominant inheritance / Bias / DNA methylation / DNA Methylation - genetics / Dominance / Gene Duplication / Gene expression / Gene Expression Regulation / Gene Expression Regulation, Plant / Genes / Genetic / Genome / Genome, Plant / Genomes / Heterosis / Hybridization / Hybridization, Genetic / Interspecific / Methylation / Mimulus - genetics / Phylogeny / Plant / Polyploidy / Species Specificity / Transposons
2017

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Subgenome Dominance in an Interspecific Hybrid, Synthetic Allopolyploid, and a 140-Year-Old Naturally Established Neo-Allopolyploid Monkeyflower
Subgenome Dominance in an Interspecific Hybrid, Synthetic Allopolyploid, and a 140-Year-Old Naturally Established Neo-Allopolyploid Monkeyflower
Journal Article

Subgenome Dominance in an Interspecific Hybrid, Synthetic Allopolyploid, and a 140-Year-Old Naturally Established Neo-Allopolyploid Monkeyflower

Edger, Patrick P.,
Bewick, Adam J.,
Pires, J. Chris,
Smith, Gregory D.,
Vallejo-Marin, Mario,
Yuan, Yaowu,
Childs, Kevin L.,
Bowman, Megan J.,
Washburn, Jacob D.,
Cooley, Arielle M.,
Puzey, Joshua R.,
Schmitz, Robert J.,
McKain, Michael R.,
Platts, Adrian E.,
Ji, Lexiang
2017
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Overview
Recent studies have shown that one of the parental subgenomes in ancient polyploids is generally more dominant, having retained more genes and being more highly expressed, a phenomenon termed subgenome dominance. The genomic features that determine how quickly and which subgenome dominates within a newly formed polyploid remain poorly understood. To investigate the rate of emergence of subgenome dominance, we examined gene expression, gene methylation, and transposable element (TE) methylation in a natural, <140-year-old allopolyploid (Mimulus peregrinus), a resynthesized interspecies triploid hybrid (M. robertsii), a resynthesized allopolyploid (M. peregrinus), and progenitor species (M. guttatus and M. luteus). We show that subgenome expression dominance occurs instantly following the hybridization of divergent genomes and significantly increases over generations. Additionally, CHH methylation levels are reduced in regions near genes and within TEs in the first-generation hybrid, intermediate in the resynthesized allopolyploid, and are repatterned differently between the dominant and recessive subgenomes in the natural allopolyploid. Subgenome differences in levels of TE methylation mirror the increase in expression bias observed over the generations following hybridization. These findings provide important insights into genomic and epigenomic shock that occurs following hybridization and polyploid events and may also contribute to uncovering the mechanistic basis of heterosis and subgenome dominance.
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Publisher
American Society of Plant Biologists
Subject

Autosomal dominant inheritance

/ Bias

/ DNA methylation

/ DNA Methylation - genetics

/ Dominance

/ Gene Duplication

/ Gene expression

/ Gene Expression Regulation

/ Gene Expression Regulation, Plant

/ Genes

/ Genetic

/ Genome

/ Genome, Plant

/ Genomes

/ Heterosis

/ Hybridization

/ Hybridization, Genetic

/ Interspecific

/ Methylation

/ Mimulus - genetics

/ Phylogeny

/ Plant

/ Polyploidy

/ Species Specificity

/ Transposons

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