Replication of Archaeal Chromosomes

Ghislaine Henneke; Roxane Lestini; Marc Nadal; Didier Flament

doi:10.1002/9781394372560.ch1

Replication of Archaeal Chromosomes

Ghislaine Henneke
, Roxane Lestini
, Marc Nadal
, Didier Flament

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

This chapter summarizes what we know about DNA replication in archaea through the different phases of this process. The ligation of DNA ends is an essential step during the maturation process of Okazaki fragments. DNA ligase appears to be an essential protein for archaeal survival. Once again, very little is currently known about the segregation of archaeal chromosomes and their correct distribution in daughter cells. As in all organisms, after replication, the two sister chromatids are joined, requiring decatenation; in other words, the complete separation of the two chromatids. To achieve this, transient double-strand breaks are made by type II topoisomerases. Archaea possess the characteristic subtype IIB, which is capable of decatenation. However, it is possible that type IA topoisomerases, which transiently cut a single strand of DNA, are capable of separating sister chromatids during replication.

Original language	English
Title of host publication	Biology of Archaea 2
Subtitle of host publication	Molecular Biology of Archaea, From Genome Maintenance to the Regulation of Gene Expression
Publisher	wiley
Pages	1-23
Number of pages	23
ISBN (Electronic)	9781394372560
ISBN (Print)	9781789451696
DOIs	https://doi.org/10.1002/9781394372560.ch1
Publication status	Published - 1 Jan 2025

Keywords

Archaeal chromosomes
Archaeal survival
Chromatids
DNA ligase
DNA replication
Decatenation
Okazaki fragments
Type II topoisomerases

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10.1002/9781394372560.ch1

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AU - Flament, Didier

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Replication of Archaeal Chromosomes

Abstract

Keywords

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