由染色体空间不对称性所调控的差异基因表达。

Differential gene expression governed by chromosomal spatial asymmetry.

作者信息

Dworkin J, Losick R

机构信息

Department of Molecular and Cellular Biology, The Biological Laboratories, Harvard University, Cambridge, MA 02138, USA.

出版信息

Cell. 2001 Nov 2;107(3):339-46. doi: 10.1016/s0092-8674(01)00528-1.

DOI:10.1016/s0092-8674(01)00528-1

PMID:11701124

Abstract

The activity of the transcription factor sigmaF is confined to one (the forespore) of two cells created by asymmetric division during sporulation in B. subtilis. We show that sigmaF activation is partly governed by the position of the gene for the unstable anti-sigmaF factor SpoIIAB. Because cytokinesis precedes chromosome segregation, most of the chromosome is translocated into the forespore after division. We hypothesize that because spoIIAB enters the forespore late, SpoIIAB lost to proteolysis is temporarily not replenished. Thus, chromosome asymmetry would be translated into the asymmetric distribution of SpoIIAB. Supporting this idea, transposition of spoIIAB to sites present in the forespore at the time of division impaired sporulation when a second pathway that participates in sigmaF activation was disabled.

摘要

在枯草芽孢杆菌形成芽孢的过程中，转录因子σF的活性局限于不对称分裂产生的两个细胞中的一个（前芽孢）。我们发现，σF的激活部分受不稳定的抗σF因子SpoIIAB基因位置的调控。由于胞质分裂先于染色体分离，大多数染色体在分裂后被转运到前芽孢中。我们推测，因为SpoIIAB进入前芽孢较晚，因蛋白水解而损失的SpoIIAB暂时无法得到补充。因此，染色体的不对称性会转化为SpoIIAB的不对称分布。当参与σF激活的第二条途径被阻断时，将spoIIAB转座到分裂时前芽孢中存在的位点会损害芽孢形成，这支持了这一观点。

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Differential gene expression governed by chromosomal spatial asymmetry.由染色体空间不对称性所调控的差异基因表达。

Cell. 2001 Nov 2;107(3):339-46. doi: 10.1016/s0092-8674(01)00528-1.

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由染色体空间不对称性所调控的差异基因表达。

Differential gene expression governed by chromosomal spatial asymmetry.

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