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DNA annealing by Redβ is insufficient for homologous recombination and the additional requirements involve intra- and inter-molecular interactions
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DNA annealing by Redβ is insufficient for homologous recombination and the additional requirements involve intra- and inter-molecular interactions
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Journal Article
DNA annealing by Redβ is insufficient for homologous recombination and the additional requirements involve intra- and inter-molecular interactions
2016
Overview
Single strand annealing proteins (SSAPs) like Redβ initiate homologous recombination by annealing complementary DNA strands. We show that C-terminally truncated Redβ, whilst still able to promote annealing and nucleoprotein filament formation, is unable to mediate homologous recombination. Mutations of the C-terminal domain were evaluated using both single- and double stranded (ss and ds) substrates in recombination assays. Mutations of critical amino acids affected either dsDNA recombination or both ssDNA and dsDNA recombination indicating two separable functions, one of which is critical for dsDNA recombination and the second for recombination
per se
. As evaluated by co-immunoprecipitation experiments, the dsDNA recombination function relates to the Redα-Redβ protein-protein interaction, which requires not only contacts in the C-terminal domain but also a region near the N-terminus. Because the nucleoprotein filament formed with C-terminally truncated Redβ has altered properties, the second C-terminal function could be due to an interaction required for functional filaments. Alternatively the second C-terminal function could indicate a requirement for a Redβ-host factor interaction. These data further advance the model for Red recombination and the proposition that Redβ and RAD52 SSAPs share ancestral and mechanistic roots.
Publisher
Nature Publishing Group UK,Nature Publishing Group
Subject
/ 82/16
/ 82/29
/ 82/80
/ DNA, Single-Stranded - chemistry
/ DNA, Single-Stranded - genetics
/ DNA, Single-Stranded - metabolism
/ DNA-Binding Proteins - chemistry
/ DNA-Binding Proteins - genetics
/ DNA-Binding Proteins - metabolism
/ Escherichia coli - chemistry
/ Escherichia coli - metabolism
/ Escherichia coli Proteins - chemistry
/ Escherichia coli Proteins - genetics
/ Escherichia coli Proteins - metabolism
/ Humanities and Social Sciences
/ Science
