Structure and Function of the Bacterial Genome. Charles J. Dorman

Structure and Function of the Bacterial Genome - Charles J. Dorman


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immediately in the wake of fork passage, the DNA is only hemimethylated. Any hemimethylated SeqA sites can bind the SeqA protein, which has the potential both to bridge DNA molecules and to exclude Topo IV, preventing decatenation (Joshi et al. 2013). The result is cohesion of the chromosome copies (Joshi et al. 2011; Nielsen et al. 2006a).

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      The presence or absence of a ParAB‐parS system is a major determinant of the pattern of chromosome segregation seen in a bacterium. E. coli does not possess such a system and forces of mutual repulsion acting on the chromosome copies as they emerge in the confined space of the rod‐shaped cell may drive them to segregate, perhaps aided by the imprinted structural and super‐structural features of the chromosomes (Jun and Mulder 2006; Jun and Wright 2010; Junier et al. 2014; Pelletier et al. 2012; Wiggins et al. 2010).

      ParAB‐parS systems may be useful rather than essential in bacteria that have just one chromosome, unless the bacterium is sporulating (Ireton et al. 1994) or going through a growth phase transition (Godfrin‐Estevenon et al. 2002). If the microbe has more than one chromosome, then the partitioning system is essential if the segregation of its different chromosomes is to be properly coordinated, as, for example, in the case of V. cholerae (Yamaichi et al. 2007) or members of the Burkholderias (Passot et al. 2012). The roles of chromosome‐encoded ParAB‐parS systems as functioning partitioning machines was confirmed in early work where it was demonstrated that they could replace the native plasmid par systems on single copy episomes (Godfrin‐Estevenon et al. 2002; Lin and Grossman 1998; Yamaichi and Niki 2000).

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      The ParA protein drives bidirectional segregation of the parS‐ParB complexes in an ATP‐dependent manner. It can form filaments, and these have been proposed to be a factor in chromosome segregation (Bouet et al. 2007; Hui et al. 2010; Ptacin et al. 2010). However, it is also possible that ParA‐driven chromosome segregation works by a diffusion‐ratchet‐type mechanism that has been described for its plasmid‐encoded counterparts (Hwang et al. 2013; Vecchiarelli et al. 2014) or a trans‐nucleoid relay mechanism (Lim et al. 2014).

      Anchoring the origin of replication to one pole of the cell is likely to assist in reinforcement of the ori‐Ter orientation of the chromosome seen along the long axis of rod shaped cells and in ensuring that daughter cells receive an entire chromosomal copy at cell division (Badrinarayanan et al. 2015) (Figure


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