E. D. Goley, et al., "Cell cycle regulation in Caulobacter: location, location, location," J Cell Sci, vol. 120, pp. 3501-7, Oct 15 2007.Goley, E.D. , Iniesta, A.A. , and Shapiro, L. ( 2007 ) Cell cycle regulation in Caulobacter: location, location, location . J Cell Sci...
Caulobacter undergo an asymmetric division each cell cycle to produce morphologically distinct progeny that have different fates: a motile, flagellated swarmer cell and a non-motile stalked cell (Fig. 1A). The swarmer cell is unable to enter S phase until it differentiates into a stalked cell,...
we sought to perturb the cell cycle ofC. crescentususing compounds that interfere with various aspects of the cell cycle, to assess the local accumulation of new and old S-layer material in response to the treatment. To aid comparison between treatments, the distinctive regions of old...
we sought to perturb the cell cycle ofC. crescentususing compounds that interfere with various aspects of the cell cycle, to assess the local accumulation of new and old S-layer material in response to the treatment. To aid comparison between treatments, the distinctive regions of old...
A null mutation in the Caulobacter crescentus smc gene is conditionally lethal and causes a cell cycle arrest at the predivisional cell stage. Chromosome segregation in wild-type and smc null mutant cells was examined by monitoring the intracellular localization of the replication origin and terminus...
ARTICLE Received 20 Oct 2014 | Accepted 24 Mar 2015 | Published 8 May 2015 DOI: 10.1038/ncomms8005 OPEN Topological control of the Caulobacter cell cycle circuitry by a polarized single-domain PAS protein Stefano Sanselicio1, Matthieu Berge´1, Laurence The´raulaz1, Sunish Kumar ...
Ryan KR, Judd EM, Shapiro L. The CtrA response regulator essential forCaulobacter crescentuscell-cycle progression requires a bipartite degradation signal for temporally controlled proteolysis. J Mol Biol. 2002; 324(3):443–55.https://doi.org/10.1016/S0022-2836(02)01042-2. ...
Negative control of bacterial DNA replication by a cell cycle regulatory protein that binds at the chromosome origin. Caulobacter crescentus divides asymmetrically generating two distinct cell types at each cell division: a stalked cell competent for DNA replication, and a... KC Quon,Y Bing,IJ Domi...
Coordinating development with the cell cycle in Caulobacter 上传人:cl6437·上传时间:2015-12-08 0/1 VIP精选文档 VIP文档折扣下载APP内阅读
Every cell cycle, Caulobacter crescentus divides asymmetrically to produce two different progeny, a swarmer cell and a stalked cell, each with distinct morphological features and regulatory programs (Figure 1a). The swarmer (G1-phase) cell is motile and unable to replicate its genome or to divid...