Centre for Cellular and Molecular Biology (CCMB), Hyderabad, 500007, India; Academy of Scientific and Innovative Research (AcSIR), Ghaziabad, 201002, India.
Centre for Cellular and Molecular Biology (CCMB), Hyderabad, 500007, India.
Biochem Biophys Res Commun. 2021 Apr 30;551:121-126. doi: 10.1016/j.bbrc.2021.03.007. Epub 2021 Mar 13.
We have investigated the mechanism of action of SWITCH1/DYAD (SWI1), an important regulator of plant meiosis in Arabidopsis that is required for meiotic chromosome organization including maintenance of sister chromatid cohesion. The central portion of SWI1 contains a domain of unknown function that shows strong conservation between SWI1 and its orthologs in maize and rice and is also found in paralogs including MALE MEIOCYTE DEATH 1 (MMD1). In order to examine the role of this domain we performed domain swap experiments into SWI1 in a swi1 mutant background. Domain swap analysis revealed functional conservation of the central domain between SWI1 and its orthologs but not with the domain from MMD1 suggesting that the domain plays an important role in SWI1 function that has been conserved in orthologs and diverged in paralogs in plant evolution. Analysis of expression of the non-complementing MMD1 domain swap SWI1(DS)::GFP transgenic lines revealed an altered pattern of expression that suggests a role for SWI1 in commitment to female meiocyte differentiation and meiosis. The results suggest that SWI1 may also play a developmental role as an identity determinant in the female germ cell lineage in addition to its known role in meiotic chromosome organization.
我们研究了 SWITCH1/DYAD(SWI1)的作用机制,SWI1 是拟南芥减数分裂的重要调节因子,对于减数分裂染色体的组织包括维持姐妹染色单体的黏合是必需的。SWI1 的中心部分包含一个未知功能的结构域,该结构域在 SWI1 与其在玉米和水稻中的同源物之间具有很强的保守性,并且也存在于包括 MALE MEIOCYTE DEATH 1(MMD1)在内的旁系同源物中。为了研究这个结构域的作用,我们在 swi1 突变体背景下进行了 SWI1 的结构域交换实验。结构域交换分析显示,SWI1 和其同源物的中心结构域具有功能保守性,但与 MMD1 的结构域没有保守性,这表明该结构域在 SWI1 功能中起着重要作用,并且在植物进化中的同源物中保守,而在旁系同源物中发生了分化。对非互补 MMD1 结构域交换 SWI1(DS)::GFP 转基因系的表达分析显示,表达模式发生了改变,这表明 SWI1 在雌性减数分裂细胞分化和减数分裂中的作用。结果表明,SWI1 除了在减数分裂染色体组织中的已知作用外,可能还作为雌性生殖细胞谱系的身份决定因素发挥发育作用。
