Duan Yi, Huey Jack D, Herman Jennifer K
Department of Biochemistry and Biophysics, Texas A&M University, College Station, TX, USA.
Mol Microbiol. 2016 Nov;102(3):530-544. doi: 10.1111/mmi.13477. Epub 2016 Aug 25.
DNA replication and chromosome segregation must be carefully regulated to ensure reproductive success. During Bacillus subtilis sporulation, chromosome copy number is reduced to two, and cells divide asymmetrically to produce the future spore (forespore) compartment. For successful sporulation, oriC must be captured in the forespore. New rounds of DNA replication are prevented in part by SirA, a protein that utilizes residues in its N-terminus to directly target Domain I of the bacterial initiator, DnaA. Using a quantitative forespore chromosome organization assay, we show that SirA also acts in the same pathway as another DnaA regulator, Soj, to promote oriC capture in the forespore. By analyzing loss-of-function variants of both SirA and DnaA, we observe that SirA's ability to inhibit DNA replication can be genetically separated from its role in oriC capture. In addition, we identify substitutions near the C-terminus of SirA and in DnaA Domain III that enhance interaction between the two proteins. One such variant, SirA , remained functional in regard to inhibiting replication, but was unable to support oriC capture. Collectively, our results support a model in which SirA targets DnaA Domain I to inhibit DNA replication, and DnaA Domain III to facilitate Soj-dependent oriC capture in the forespore.
DNA复制和染色体分离必须得到严格调控,以确保繁殖成功。在枯草芽孢杆菌形成芽孢的过程中,染色体拷贝数减少到两个,细胞不对称分裂以产生未来的芽孢(前芽孢)区室。为了成功形成芽孢,oriC必须在前芽孢中被捕获。新一轮的DNA复制部分地受到SirA的抑制,SirA是一种利用其N端残基直接靶向细菌起始蛋白DnaA的结构域I的蛋白质。通过一种定量的前芽孢染色体组织分析方法,我们发现SirA与另一种DnaA调节因子Soj在促进oriC在前芽孢中的捕获方面,也作用于相同的途径。通过分析SirA和DnaA的功能缺失变体,我们观察到SirA抑制DNA复制的能力在基因上可以与其在oriC捕获中的作用相分离。此外,我们在SirA的C端附近和DnaA的结构域III中鉴定出一些替代位点,这些位点增强了两种蛋白质之间的相互作用。其中一种变体SirA ,在抑制复制方面仍然具有功能,但无法支持oriC的捕获。总的来说,我们的结果支持了一个模型,即SirA靶向DnaA的结构域I以抑制DNA复制,靶向DnaA的结构域III以促进前芽孢中依赖Soj的oriC捕获。
