Bacterial chromosome segregation is a critical process that ensures the accurate distribution of genetic material during cell division. Recent research has focused on understanding the mechanisms ...

Chromosome segregation and site-specific recombination are critical processes in bacterial cell division and genetic stability. These mechanisms ensure that genetic material is accurately ...

In eukaryotes, segregation of duplicated chromosomes is performed by the mitotic spindle, a cellular machine composed of microtubules and their associated proteins. Spindles are built from ...

This important study presents compelling observational data supporting a role for transcription and polysome accumulation in the separation of newly replicated bacterial chromosomes. The study is ...

Meiosis reduces ploidy by following one round of DNA replication with two rounds of chromosome segregation (Meiosis I and Meiosis II respectively). In Meiosis I homologous chromosomes separate, which ...