1. Patterns of homoeologous gene expression shown by RNA sequencing in hexaploid bread wheat.
- Author
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Leach, Lindsey J., Belfield, Eric J., Jiang, Caifu, Brown, Carly, Mithani, Aziz, and Harberd, Nicholas P.
- Subjects
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WHEAT , *NUCLEOTIDE sequence , *CYTOGENETICS , *PHENOTYPES , *PLANT chromosomes , *GENE expression in plants - Abstract
Background Bread wheat (Triticum aestivum) has a large, complex and hexaploid genome consisting of A, B and D homoeologous chromosome sets. Therefore each wheat gene potentially exists as a trio of A, B and D homoeoloci, each of which may contribute differentially to wheat phenotypes. We describe a novel approach combining wheat cytogenetic resources (chromosome substitution 'nullisomic-tetrasomic' lines) with next generation deep sequencing of gene transcripts (RNA-Seq), to directly and accurately identify homoeologuespecific single nucleotide variants and quantify the relative contribution of individual homoeoloci to gene expression. Results We discover, based on a sample comprising ~5-10% of the total wheat gene content, that at least 45% of wheat genes are expressed from all three distinct homoeoloci. Most of these genes show strikingly biased expression patterns in which expression is dominated by a single homoeolocus. The remaining ∼55% of wheat genes are expressed from either one or two homoeoloci only, through a combination of extensive transcriptional silencing and homoeolocus loss. Conclusions We conclude that wheat is tending towards functional diploidy, through a variety of mechanisms causing single homoeoloci to become the predominant source of gene transcripts. This discovery has profound consequences for wheat breeding and our understanding of wheat evolution. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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