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在拟南芥的雌性配子体发生过程中,MYB64 和 MYB119 对于细胞化和分化是必需的。

MYB64 and MYB119 are required for cellularization and differentiation during female gametogenesis in Arabidopsis thaliana.

机构信息

Department of Biology, University of Utah, Salt Lake City, Utah, United States of America.

出版信息

PLoS Genet. 2013;9(9):e1003783. doi: 10.1371/journal.pgen.1003783. Epub 2013 Sep 19.

DOI:10.1371/journal.pgen.1003783
PMID:24068955
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3778002/
Abstract

In angiosperms, the egg cell forms within the multicellular, haploid female gametophyte. Female gametophyte and egg cell development occurs through a unique process in which a haploid spore initially undergoes several rounds of synchronous nuclear divisions without cytokinesis, resulting in a single cell containing multiple nuclei. The developing gametophyte then forms cell walls (cellularization) and the resulting cells differentiate to generate the egg cell and several accessory cells. The switch between free nuclear divisions and cellularization-differentiation occurs during developmental stage FG5 in Arabidopsis, and we refer to it as the FG5 transition. The molecular regulators that initiate the FG5 transition during female gametophyte development are unknown. In this study, we show using mutant analysis that two closely related MYB transcription factors, MYB64 and MYB119, act redundantly to promote this transition. MYB64 and MYB119 are expressed during the FG5 transition, and most myb64 myb119 double mutant gametophytes fail to initiate the FG5 transition, resulting in uncellularized gametophytes with supernumerary nuclei. Analysis of cell-specific markers in myb64 myb119 gametophytes that do cellularize suggests that gametophytic polarity and differentiation are also affected. We also show using multiple-mutant analysis that MYB119 expression is regulated by the histidine kinase CKI1, the primary activator of two-component signaling (TCS) during female gametophyte development. Our data establish a molecular pathway regulating the FG5 transition and implicates CKI1-dependent TCS in the promotion of cellularization, differentiation, and gamete specification during female gametogenesis.

摘要

在被子植物中,卵细胞在多细胞、单倍体雌配子体中形成。雌配子体和卵细胞的发育是通过一个独特的过程进行的,在这个过程中,一个单倍体孢子最初经历几次同步的核分裂,而没有胞质分裂,导致一个细胞中含有多个核。发育中的配子体然后形成细胞壁(细胞化),并使产生的细胞分化生成卵细胞和几个附属细胞。在拟南芥中,自由核分裂和细胞化-分化之间的转变发生在发育阶段 FG5 期间,我们称之为 FG5 转变。在雌性配子体发育过程中启动 FG5 转变的分子调节剂尚不清楚。在这项研究中,我们通过突变体分析表明,两个密切相关的 MYB 转录因子 MYB64 和 MYB119 冗余地作用以促进这种转变。MYB64 和 MYB119 在 FG5 转变期间表达,并且大多数 myb64 myb119 双突变体配子体不能启动 FG5 转变,导致未细胞化的配子体具有过多的核。在 myb64 myb119 配子体中进行细胞特异性标记分析表明,配子体极性和分化也受到影响。我们还通过多重突变体分析表明,MYB119 的表达受组氨酸激酶 CKI1 的调节,CKI1 是雌性配子体发育过程中双组分信号转导(TCS)的主要激活物。我们的数据建立了一个调节 FG5 转变的分子途径,并表明 CKI1 依赖性 TCS 参与了雌性配子发生过程中细胞化、分化和配子体特化的促进。

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