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EXS是一种假定的富含亮氨酸重复序列受体激酶,它调控拟南芥雄配子体细胞数量和绒毡层特性,并促进种子发育。

EXS, a putative LRR receptor kinase, regulates male germline cell number and tapetal identity and promotes seed development in Arabidopsis.

作者信息

Canales Claudia, Bhatt Anuj M, Scott Rod, Dickinson Hugh

机构信息

Department of Plant Sciences, South Parks Road, University of Oxford, United Kingdom.

出版信息

Curr Biol. 2002 Oct 15;12(20):1718-27. doi: 10.1016/s0960-9822(02)01151-x.

DOI:10.1016/s0960-9822(02)01151-x
PMID:12401166
Abstract

BACKGROUND

Plant germlines arise late in development from archesporial initials in the L2 layer of the anther and ovule primordia. These cells generate a radially symmetrical array of tissues that, in the Arabidopsis anther, comprises a core of sporogenous cells (meiocytes) and the enveloping tapetum, middle cell, and endothecium layers. The putative transcription factor NZZ/SPL is required for the specification of archesporial cells, but nothing is known of how their number is regulated, or what controls cell fate in the lineages they generate. Here, we report detailed characterization of extra sporogenous cells (exs), a male sterile mutant that generates extra meiocytes but lacks tapetal and middle cell layers.

RESULTS

We identified the EXS locus by map-based cloning and found it to encode a putative LRR receptor kinase. In the anther, an increased number of L2 layer cells assume an archesporial fate and divide to generate a larger number of sporogenous cells. In seeds, the exs mutation results in smaller embryonic cells, delayed embryo development, and smaller mature embryos. Consistent with the observed phenotype, EXS is expressed in the inflorescence meristem, floral apices, anthers, and in developing seeds.

CONCLUSIONS

EXS regulates the number of cells that divide in the L2 layer of the anther, and thus the number of functional male archesporial initials. In the young seed, EXS affects cell size in the embryo and the rate at which it develops. The apparently contrasting roles of EXS in the anther and embryo suggest that signaling through the EXS receptor kinase is a feature of a number of regulatory pathways in Arabidopsis.

摘要

背景

植物生殖细胞在发育后期由花药和胚珠原基L2层的孢原细胞产生。这些细胞形成径向对称的组织阵列,在拟南芥花药中,包括一个孢子母细胞(减数分裂细胞)核心以及包围它的绒毡层、中层细胞和内皮细胞层。假定的转录因子NZZ/SPL是孢原细胞特化所必需的,但对于其数量如何调控,或者在它们产生的细胞谱系中是什么控制细胞命运,我们一无所知。在此,我们报道了额外孢子母细胞(exs)的详细特征,这是一个雄性不育突变体,它产生额外的减数分裂细胞,但缺乏绒毡层和中层细胞层。

结果

我们通过图位克隆鉴定了EXS基因座,发现它编码一种假定的富含亮氨酸重复序列(LRR)受体激酶。在花药中,数量增加的L2层细胞呈现孢原细胞命运并分裂产生更多的孢子母细胞。在种子中,exs突变导致胚胎细胞变小、胚胎发育延迟以及成熟胚胎变小。与观察到的表型一致,EXS在花序分生组织、花尖、花药以及发育中的种子中表达。

结论

EXS调控花药L2层中分裂的细胞数量,从而调控功能性雄性孢原细胞起始细胞的数量。在幼嫩种子中,EXS影响胚胎中的细胞大小及其发育速率。EXS在花药和胚胎中明显不同的作用表明,通过EXS受体激酶的信号传导是拟南芥许多调控途径的一个特征。

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