SSB facilitates fork substrate discrimination by PriA

Tan, Hui Yin; Bianco, Piero R.

doi:10.1101/2020.11.23.394411

Cited by 2 publications

(1 citation statement)

References 78 publications

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“…As SSB binds to interactome partners, these also colocalize to the membrane as shown for the repair DNA helicases RecG and PriA, which are present at 7–15 and 2–4 molecules per cell, respectively 24,121 . The SSB‐RecG complex can transfer directly to forks, whereas it is more likely that PriA is transferred from the complex with SSB to tetramers bound to forks, but this remains an open question 24,130 …”

Section: Introductionmentioning

confidence: 99%

The mechanism of action of the SSB interactome reveals it is the first OB‐fold family of genome guardians in prokaryotes

Bianco

2021

Protein Science

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The single‐stranded DNA binding protein (SSB) is essential to all aspects of DNA metabolism in bacteria. This protein performs two distinct, but closely intertwined and indispensable functions in the cell. SSB binds to single‐stranded DNA (ssDNA) and at least 20 partner proteins resulting in their regulation. These partners comprise a family of genome guardians known as the SSB interactome. Essential to interactome regulation is the linker/OB‐fold network of interactions. This network of interactions forms when one or more PXXP motifs in the linker of SSB bind to an OB‐fold in a partner, with interactome members involved in competitive binding between the linker and ssDNA to their OB‐fold. Consequently, when linker‐binding occurs to an OB‐fold in an interactome partner, proteins are loaded onto the DNA. When linker/OB‐fold interactions occur between SSB tetramers, cooperative ssDNA‐binding results, producing a multi‐tetrameric complex that rapidly protects the ssDNA. Within this SSB‐ssDNA complex, there is an extensive and dynamic network of linker/OB‐fold interactions that involves multiple tetramers bound contiguously along the ssDNA lattice. The dynamic behavior of these tetramers which includes binding mode changes, sliding as well as DNA wrapping/unwrapping events, are likely coupled to the formation and disruption of linker/OB‐fold interactions. This behavior is essential to facilitating downstream DNA processing events. As OB‐folds are critical to the essence of the linker/OB‐fold network of interactions, and they are found in multiple interactome partners, the SSB interactome is classified as the first family of prokaryotic, oligosaccharide/oligonucleotide binding fold (OB‐fold) genome guardians.

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Section: Introductionmentioning

confidence: 99%