Access the full text.
Sign up today, get unlimited access with DeepDyve Pro!
replication, chromosome unlinking and faithful segregation into daughter cells . In this Review, we explore the contributions of chromosome structure and nucleoid organization to cell cycle regulation , detail ...
in genome defence, chromosome replication and segregation, nucleoid organization, cell cycle control, DNA repair and regulation of transcription. In many bacterial species, DNA methylation controls reversible ...
determinants DivIVA (in B. subtilis) and Ling Juan Wu and Jeff Errington MinE (in E. coli). DivIVA is located at the cell poles and recruits the MinCD complex. Abstract | The bacterial cell cycle requires ...
Recent advancements in fluorescence imaging have shown that the bacterial nucleoid is surprisingly dynamic in terms of both behavior (movement and organization) and structure (density ...
Bacterial nucleoid remodeling dependent on conserved histone-like protein, HU is one of the determining factors in global gene regulation . By imaging of near-native, unlabeled E. coli cells by soft X ...
-to-terminus ratio of 1. The growth rate prior to starvation determines the number of chromosomes upon arrest. Nucleoids of these cells are decondensed; in the absence of the ability to synthesize ppGpp ...
Summary In the life cycle of a bacterium there are several key processes: cellular growth, chromosome replication and decatenation, nucleoid partition, septum formation, and cell division ...
underwent such a tight compaction under a normal growth condition. Bioinformatic analysis suggested that this was attributable to the lack of IHF that regulate the expression of a nucleoid protein, Dps ...
The harmonious growth and cell ‐to‐ cell uniformity of steady‐state bacterial populations indicate the existence of a well‐ regulated cell cycle , responding to a set of internal signals. In Escherichia ...
Access the full text.
Sign up today, get unlimited access with DeepDyve Pro!