芽孢中σE转录因子的消失以及母细胞中SpoIIE磷酸酶的消失，有助于枯草芽孢杆菌孢子形成过程中细胞特异性基因表达的建立。

Disappearance of the sigma E transcription factor from the forespore and the SpoIIE phosphatase from the mother cell contributes to establishment of cell-specific gene expression during sporulation in Bacillus subtilis.

作者信息

Pogliano K, Hofmeister A E, Losick R

机构信息

Department of Molecular and Cellular Biology, Harvard University, Cambridge, Massachusetts 02138, USA.

出版信息

J Bacteriol. 1997 May;179(10):3331-41. doi: 10.1128/jb.179.10.3331-3341.1997.

DOI:10.1128/jb.179.10.3331-3341.1997

PMID:9150232

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC179115/

Abstract

We used immunofluorescence microscopy to investigate mechanisms governing the establishment of cell-specific gene transcription during sporulation in the bacterium Bacillus subtilis. The transcription factors sigma E and sigma F are synthesized shortly after the start of sporulation but do not become active in directing gene transcription until after polar division, when the activity of sigma E is confined to the mother cell and the activity of sigma F is restricted to the forespore. We show that shortly after septation, sigma E and its proprotein precursor pro-sigma E appear to be absent from the forespore and that a null mutation in spoIIIE, a gene known to be required for the translocation of a chromosome into the forespore, allows sigma E and/or pro-sigma E to persist and sigma E to become active in the forespore. These findings suggest that the loss of sigma E/pro-sigma E from the forespore contributes to the compartmentalization of sigma E-directed gene transcription. We also investigated the distribution of SpoIIE, a regulatory phosphatase required for the activation of sigma F which exhibits a bipolar pattern of localization shortly after the start of sporulation. Normally, SpoIIE rapidly disappears from the sporangium, first from the mother-cell pole and then from the forespore pole. Here we show that a null mutation in spoIIIE causes the SpoIIE phosphatase to persist at both poles. The persistence of the SpoIIE phosphatase at the mother-cell pole could explain the lack of compartmentalization of sigma F activity observed in a spoIIIE null mutant. We conclude that the establishment of cell-specific gene transcription involves the loss of sigma E/pro-sigma E from the forespore and the loss of the SpoIIE phosphatase from the mother-cell pole and that both processes are dependent upon the SpoIIIE protein.

摘要

我们利用免疫荧光显微镜来研究在枯草芽孢杆菌芽孢形成过程中控制细胞特异性基因转录建立的机制。转录因子σE和σF在芽孢形成开始后不久合成，但直到极性分裂后才开始活跃地指导基因转录，此时σE的活性局限于母细胞，而σF的活性局限于前芽孢。我们发现，隔膜形成后不久，前芽孢中似乎不存在σE及其前体蛋白前体原σE，并且已知将染色体转运到前芽孢中所需的spoIIIE基因的无效突变会使σE和/或原σE持续存在，并且σE在前芽孢中变得活跃。这些发现表明，前芽孢中σE/原σE的缺失有助于σE指导的基因转录的区室化。我们还研究了SpoIIE的分布，SpoIIE是激活σF所需的一种调节性磷酸酶，在芽孢形成开始后不久呈现双极定位模式。正常情况下，SpoIIE会迅速从芽孢囊消失，首先从母细胞极消失，然后从前芽孢极消失。在这里我们表明，spoIIIE基因的无效突变会导致SpoIIE磷酸酶在两极持续存在。SpoIIE磷酸酶在母细胞极的持续存在可以解释在spoIIIE无效突变体中观察到的σF活性缺乏区室化的现象。我们得出结论，细胞特异性基因转录的建立涉及前芽孢中σE/原σE的缺失以及母细胞极中SpoIIE磷酸酶的缺失，并且这两个过程都依赖于SpoIIIE蛋白。

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