Cook W R, Kepes F, Joseleau-Petit D, MacAlister T J, Rothfield L I
Department of Microbiology, University of Connecticut Health Center, Farmington 06032.
Proc Natl Acad Sci U S A. 1987 Oct;84(20):7144-8. doi: 10.1073/pnas.84.20.7144.
The earliest detectable event at future sites of cell division in Escherichia coli is the appearance of paired periseptal annuli that flank the site of formation of the division septum. The development and localization of these structures were followed as the cell progressed through the division cycle. The data suggest that (i) new periseptal annuli are generated from annuli already in position at the midpoint of the newborn cell; (ii) the nascent annuli are then displaced laterally during cell elongation to positions at 1/4 and 3/4 cell length; and (iii) the annuli at 1/4 and 3/4 cell length are retained during division, becoming the midpoint annuli of the newborn cells at the sites of the forthcoming division septum. The results indicate that the sites of future divisions can be identified and committed to the division process prior to the division cycle in which these sites are utilized for septum formation, and they suggest a model in which preexisting sites of cell division generate future division sites by a replication/displacement mechanism.
在大肠杆菌未来细胞分裂位点最早可检测到的事件是成对的周质环的出现,这些周质环位于分裂隔膜形成位点的两侧。随着细胞经历分裂周期,追踪这些结构的发育和定位。数据表明:(i)新的周质环由新生细胞中点处已就位的环产生;(ii)新生环在细胞伸长过程中随后侧向移位至细胞长度的1/4和3/4处;(iii)细胞长度1/4和3/4处的环在分裂期间保留下来,成为即将形成的分裂隔膜位点处新生细胞的中点环。结果表明,未来分裂位点在这些位点用于隔膜形成的分裂周期之前就可以被识别并进入分裂过程,这提示了一种模型,即预先存在的细胞分裂位点通过复制/移位机制产生未来的分裂位点。