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具有粗厚山羊草细胞质的异质系雌蕊和类雌蕊转化雄蕊中小麦AINTEGUMENTA同源基因WANT-1的表达变化

Altered expression of wheat AINTEGUMENTA homolog, WANT-1, in pistil and pistil-like transformed stamen of an alloplasmic line with Aegilops crassa cytoplasm.

作者信息

Mizumoto Kota, Hatano Hitoshi, Hirabayashi Chizuru, Murai Koji, Takumi Shigeo

机构信息

Laboratory of Plant Genetics, Graduate School of Agricultural Science, Kobe University, Nada-ku, Kobe, 657-8501, Japan.

出版信息

Dev Genes Evol. 2009 Apr;219(4):175-87. doi: 10.1007/s00427-009-0275-y. Epub 2009 Mar 3.

DOI:10.1007/s00427-009-0275-y
PMID:19255779
Abstract

Homeotic transformation of stamens into pistil-like structures, called pistillody, has been reported in some alloplasmic common wheat lines with Aegilops crassa cytoplasm. An alloplasmic line of Chinese Spring ditelosomic 7BS (CSdt7BS) with Ae. crassa cytoplasm lacking the long arm of the chromosome 7B shows pistillody, and the pistils and transformed stamens are sterile due to abnormal ovule development. To elucidate the molecular mechanism of the ovule abnormality, we compared the expression profiles of floral organs between euplasmic and alloplasmic CSdt7BS lines. Two differential display methods of mRNA profiling demonstrated that Ae. crassa cytoplasm largely affects nuclear gene expression profiles of common wheat. Of the differentially expressed genes, a wheat AINTEGUMENTA (ANT) homolog, WANT-1, was preferentially expressed in pistils but not in stamens, and accumulation of the transcript was limited to ovule primordia at the floral organ development stage. In alloplasmic wheat, WANT-1 expression was patchy and weak at the ovule-development stages. On the other hand, no significant difference in gene expression patterns of wheat AGAMOUS (AG) homologs (WAG-1 and WAG-2) was observed between fertile and sterile pistils. These results indicated that alteration of gene expression after initiation of ovule primordia results in abnormal ovule development, and that the aberrant ovule formation is at least partly associated with the weak expression of WANT-1 around ovule primordia in alloplasmic wheat with Ae. crassa cytoplasm.

摘要

在一些具有粗厚山羊草细胞质的异质普通小麦品系中,已报道了雄蕊向雌蕊状结构的同源异型转变,即雌蕊化现象。中国春双端体7BS(CSdt7BS)与粗厚山羊草细胞质的异质系,缺失7B染色体长臂,表现出雌蕊化现象,并且由于胚珠发育异常,雌蕊和转化的雄蕊均不育。为了阐明胚珠异常的分子机制,我们比较了同质和异质CSdt7BS品系花器官的表达谱。两种mRNA谱的差异显示方法表明,粗厚山羊草细胞质对普通小麦的核基因表达谱有很大影响哦。在差异表达的基因中,一个小麦AINTEGUMENTA(ANT)同源基因WANT-1在雌蕊中优先表达,而在雄蕊中不表达,并且转录本的积累仅限于花器官发育阶段的胚珠原基。在异质小麦中,WANT-1在胚珠发育阶段的表达呈斑点状且较弱。另一方面,在可育和不育雌蕊之间,未观察到小麦AGAMOUS(AG)同源基因(WAG-1和WAG-2)的基因表达模式有显著差异。这些结果表明,胚珠原基起始后基因表达的改变导致胚珠发育异常,并且异常胚珠的形成至少部分与具有粗厚山羊草细胞质的异质小麦中胚珠原基周围WANT-1的弱表达有关。

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