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Literature DB >> 35351361

Convergent evolution in two bacterial replicative helicase loaders.

Jillian Chase¹, James Berger², David Jeruzalmi³.

Abstract

Dedicated loader proteins play essential roles in bacterial DNA replication by opening ring-shaped DnaB-family helicases and chaperoning single-stranded (ss)DNA into a central motor chamber as a prelude to DNA unwinding. Although unrelated in sequence, the Escherichia coli DnaC and bacteriophage λ P loaders feature a similar overall architecture: a globular domain linked to an extended lasso/grappling hook element, located at their N and C termini, respectively. Both loaders remodel a closed DnaB ring into nearly identical right-handed open conformations. The sole element shared by the loaders is a single alpha helix, which binds to the same site on the helicase. Physical features of the loaders establish that DnaC and λ P evolved independently to converge, through molecular mimicry, on a common helicase-opening mechanism.

Entities: Chemical

Keywords: DNA replication; DnaB; DnaC, λ P; convergent evolution; helicase loading

Mesh：

Substances：

Year: 2022 PMID： 35351361 PMCID： PMC9189051 DOI： 10.1016/j.tibs.2022.02.005

Source DB: PubMed Journal: Trends Biochem Sci ISSN： 0968-0004 Impact factor: 14.264

118 in total

1. Structure of hexameric DnaB helicase and its complex with a domain of DnaG primase.

Authors: Scott Bailey; William K Eliason; Thomas A Steitz
Journal: Science Date: 2007-10-19 Impact factor: 47.728

2. The dnaB-dnaC replication protein complex of Escherichia coli. I. Formation and properties.

Authors: E Wahle; R S Lasken; A Kornberg
Journal: J Biol Chem Date: 1989-02-15 Impact factor: 5.157

3. Structure of eukaryotic CMG helicase at a replication fork and implications to replisome architecture and origin initiation.

Authors: Roxana Georgescu; Zuanning Yuan; Lin Bai; Ruda de Luna Almeida Santos; Jingchuan Sun; Dan Zhang; Olga Yurieva; Huilin Li; Michael E O'Donnell
Journal: Proc Natl Acad Sci U S A Date: 2017-01-17 Impact factor: 11.205

Convergent evolution in two bacterial replicative helicase loaders.

1. Structure of hexameric DnaB helicase and its complex with a domain of DnaG primase.

2. The dnaB-dnaC replication protein complex of Escherichia coli. I. Formation and properties.

3. Structure of eukaryotic CMG helicase at a replication fork and implications to replisome architecture and origin initiation.

Review 4. Motors and switches: AAA+ machines within the replisome.

Review 5. Recent development of Ori-Finder system and DoriC database for microbial replication origins.

6. Primase directs the release of DnaC from DnaB.

Review 7. oriC-encoded instructions for the initiation of bacterial chromosome replication.

8. A checkpoint control orchestrates the replication of the two chromosomes of Vibrio cholerae.

9. DciA is an ancestral replicative helicase operator essential for bacterial replication initiation.

Review 10. Replication Fork Breakage and Restart in Escherichia coli.

1. DciA Helicase Operators Exhibit Diversity across Bacterial Phyla.