Author:
Howard Charles B,Rabinovitch Avinoam,Yehezkel Galit,Zaritsky Arieh
Abstract
Cell dimensions of rod-shaped bacteria such asEscherichia coliare connected to mass growth and chromosome replication. It divides ≈20 min after termination of the replication cycle that initiates ≈40 min earlier at a relatively constant mass. Cells enlarge by elongation only, but at faster growth in richer media they are also wider. Width determination occurs in the divisome during the division process, coupled, temporally and spatially, to the ratio between the rates of growth and replication. The elusive signal directing the mechanism for width determination is related to the tightly linked duplications of the nucleoid (DNA) and the sacculus (peptidoglycan), the only two structures (macro-molecules) existing in a single copy. Six biologically meaningful parameters related to the key number of replication positions are reasonable candidates to convey such a signal. The current analysis discovered that of these, nucleoid complexity is the most likely parameter affecting cell width. As a corollary, a new, indirect approach to estimate replication rate is revealed.
Publisher
Cold Spring Harbor Laboratory
Reference29 articles.
1. Maalϕe O , Kjeldgaard NO . 1966. Control of Macromolecular Synthesis: A study of DNA, RNA, and protein synthesis in bacteria. W.A. Benjamin: New York, NY, USA, 1966; pp. 284. [Google Scholar]
2. Fundamental principles in bacterial physiology—history, recent progress, and the future with focus on cell size control: a review
3. Major ideas in quantitative microbial physiology: past, present and future; Copenhagen. 2022. Available online: https://indico.nbi.ku.dk/event/1592/
4. On microbial states of growth†
5. Exponential growth of bacteria: Constant multiplication through division;Amer J Phys,2010