Twisted Sister1: an agravitropic mutant of bread wheat (Triticum aestivum) with altered root and shoot architectures

Deying Zeng, Jiayu Peng, Lan Zhang, Mathew J. Hayden, Tina M. Rathjen, Bo Zhu, Zixian Zeng, Emmanuel Delhaize
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Abstract

We identified a mutant of hexaploid wheat (Triticum aestivum) with impaired responses to gravity. The mutant named Twisted Sister1 (TS1) had agravitropic roots that were often twisted along with altered shoot phenotypes. Roots of TS1 were insensitive of externally applied auxin with the genetics and physiology suggestive of a mutated AUX/IAA transcription factor gene. Hexaploid wheat possesses over eighty AUX/IAA genes and sequence information did not identify an obvious candidate. Bulked segregant analysis of an F2 population mapped the mutation to chromosome 5A and subsequent mapping located the mutation to a 41 Mbp region. RNA-seq identified the TraesCS5A03G0149800 gene encoding a TaAUX/IAA protein to be mutated in the highly conserved domain II motif. We confirmed TraesCS5A03G0149800 as underlying the mutant phenotype by generating transgenic Arabidopsis thaliana. Analysis of RNA-seq data suggested broad similarities between Arabidopsis and wheat for the role of AUX/IAA genes in gravity responses. Here we show that the sequenced wheat genome along with previous knowledge largely from the model species Arabidopsis, gene mapping, RNA-seq and expression in Arabidopsis have enabled cloning of a key wheat gene defining plant architecture.
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Twisted Sister1:根和芽结构改变的面包小麦(Triticum aestivum)向外辐射突变体
我们在六倍体小麦(Triticum aestivum)中发现了一种对重力反应受损的突变体。这种突变体被命名为 Twisted Sister1 (TS1),它的根系具有向重力方向生长的特性,经常扭曲,同时芽的表型也发生了改变。TS1 的根对外部施加的植物生长素不敏感,其遗传学和生理学表明 AUX/IAA 转录因子基因发生了突变。六倍体小麦拥有八十多个 AUX/IAA 基因,序列信息并未发现明显的候选基因。对 F2 群体的大量分离分析将突变映射到 5A 染色体上,随后的映射将突变定位到 41 Mbp 的区域。RNA-seq鉴定出编码TaAUX/IAA蛋白的TraesCS5A03G0149800基因在高度保守的结构域II基序上发生了突变。我们通过产生转基因拟南芥,证实 TraesCS5A03G0149800 是突变体表型的基础。对 RNA-seq 数据的分析表明,拟南芥和小麦的 AUX/IAA 基因在重力反应中的作用具有广泛的相似性。在这里,我们展示了已测序的小麦基因组以及以前主要从模式物种拟南芥、基因图谱、RNA-seq 和拟南芥表达中获得的知识,从而克隆出一个定义植物结构的关键小麦基因。
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