Literature DB >> 31220976

Redox Chemistry in the Genome: Emergence of the [4Fe4S] Cofactor in Repair and Replication.

Jacqueline K Barton1, Rebekah M B Silva1, Elizabeth O'Brien1.   

Abstract

Many DNA-processing enzymes have been shown to contain a [4Fe4S] cluster, a common redox cofactor in biology. Using DNA electrochemistry, we find that binding of the DNA polyanion promotes a negative shift in [4Fe4S] cluster potential, which corresponds thermodynamically to a ∼500-fold increase in DNA-binding affinity for the oxidized [4Fe4S]3+ cluster versus the reduced [4Fe4S]2+ cluster. This redox switch can be activated from a distance using DNA charge transport (DNA CT) chemistry. DNA-processing proteins containing the [4Fe4S] cluster are enumerated, with possible roles for the redox switch highlighted. A model is described where repair proteins may signal one another using DNA-mediated charge transport as a first step in their search for lesions. The redox switch in eukaryotic DNA primases appears to regulate polymerase handoff, and in DNA polymerase δ, the redox switch provides a means to modulate replication in response to oxidative stress. We thus describe redox signaling interactions of DNA-processing [4Fe4S] enzymes, as well as the most interesting potential players to consider in delineating new DNA-mediated redox signaling networks.

Entities:  

Keywords:  DNA charge transport; DNA polymerase; DNA primase; base excision repair; iron–sulfur clusters; oxidative stress; redox signaling

Year:  2019        PMID: 31220976      PMCID: PMC6590699          DOI: 10.1146/annurev-biochem-013118-110644

Source DB:  PubMed          Journal:  Annu Rev Biochem        ISSN: 0066-4154            Impact factor:   23.643


  131 in total

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