Making the Bread： Insights from New Synthesized AIIohexaploid Wheat

Bread wheat （or common wheat, Triticum aestivum） is an allohexaploid （AABBDD, 2n = 6x = 42） that arose by hybridization between a cultivated tetraploid wheat T. turgidum （AABB, 2n = 4x = 28） and the wild goatgrass Aegilops tauschii （DD, 2n = 2x = 14）. Polyploidization provided niches for rigorous ge...

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Veröffentlicht in:	分子植物：英文版 2015, Vol.8 (1), p.847-859
1. Verfasser:	Ai-li Li Shuai-feng Geng Lian-quan Zhang Deng-cai Liu Long Mao
Format:	Artikel
Sprache:	eng
Schlagworte:	人工合成六倍体小麦制作基因表达调控异源六倍体普通小麦表观遗传学面包小麦
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creator	Ai-li Li Shuai-feng Geng Lian-quan Zhang Deng-cai Liu Long Mao
description	Bread wheat （or common wheat, Triticum aestivum） is an allohexaploid （AABBDD, 2n = 6x = 42） that arose by hybridization between a cultivated tetraploid wheat T. turgidum （AABB, 2n = 4x = 28） and the wild goatgrass Aegilops tauschii （DD, 2n = 2x = 14）. Polyploidization provided niches for rigorous genome modification at cytogenetic, genetic, and epigenetic levels, rendering a broader spread than its progenitors. This review summarizes the latest advances in understanding gene regulation mechanisms in newly synthesized allohexaploid wheat and possible correlation with polyploid growth vigor and adaptation. Cytogenetic studies reveal persistent association of whole-chromosome aneuploidy with nascent allopolyploids, in contrast to the genetic stability in common wheat. Transcriptome analysis of the euploid wheat shows that small RNAs are driving forces for homoeo-allele expression regulation via genetic and epigenetic mechanisms. The ensuing non-additively expressed genes and those with expression level dominance to the respective progenitor may play distinct functions in growth vigor and adaptation in nascent allohexaploid wheat. Further genetic diploidization of allohexaploid wheat is not random. Regional asymmetrical gene distribution, rather than subgenome dominance, is observed in both synthetic and natural allohexaploid wheats. The combinatorial effects of diverged genomes, subsequent selection of specific gene categories, and subgenome-specific traits are essential for the successful establishment of common wheat.
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Polyploidization provided niches for rigorous genome modification at cytogenetic, genetic, and epigenetic levels, rendering a broader spread than its progenitors. This review summarizes the latest advances in understanding gene regulation mechanisms in newly synthesized allohexaploid wheat and possible correlation with polyploid growth vigor and adaptation. Cytogenetic studies reveal persistent association of whole-chromosome aneuploidy with nascent allopolyploids, in contrast to the genetic stability in common wheat. Transcriptome analysis of the euploid wheat shows that small RNAs are driving forces for homoeo-allele expression regulation via genetic and epigenetic mechanisms. The ensuing non-additively expressed genes and those with expression level dominance to the respective progenitor may play distinct functions in growth vigor and adaptation in nascent allohexaploid wheat. Further genetic diploidization of allohexaploid wheat is not random. Regional asymmetrical gene distribution, rather than subgenome dominance, is observed in both synthetic and natural allohexaploid wheats. 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Polyploidization provided niches for rigorous genome modification at cytogenetic, genetic, and epigenetic levels, rendering a broader spread than its progenitors. This review summarizes the latest advances in understanding gene regulation mechanisms in newly synthesized allohexaploid wheat and possible correlation with polyploid growth vigor and adaptation. Cytogenetic studies reveal persistent association of whole-chromosome aneuploidy with nascent allopolyploids, in contrast to the genetic stability in common wheat. Transcriptome analysis of the euploid wheat shows that small RNAs are driving forces for homoeo-allele expression regulation via genetic and epigenetic mechanisms. The ensuing non-additively expressed genes and those with expression level dominance to the respective progenitor may play distinct functions in growth vigor and adaptation in nascent allohexaploid wheat. Further genetic diploidization of allohexaploid wheat is not random. Regional asymmetrical gene distribution, rather than subgenome dominance, is observed in both synthetic and natural allohexaploid wheats. The combinatorial effects of diverged genomes, subsequent selection of specific gene categories, and subgenome-specific traits are essential for the successful establishment of common wheat.</abstract></addata></record>
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subjects	人工合成六倍体小麦制作基因表达调控异源六倍体普通小麦表观遗传学面包小麦
title	Making the Bread： Insights from New Synthesized AIIohexaploid Wheat
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