The effects of AtRad52 over‐expression on homologous recombination in Arabidopsis |
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Authors: | Aviva Samach Vyacheslav Gurevich Naomi Avivi‐Ragolsky Avraham A. Levy |
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Affiliation: | Department of Plant and Environmental Sciences, The Weizmann Institute of Science, Rehovot, Israel |
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Abstract: | AtRad52 homologs are involved in DNA recombination and repair, but their precise functions in different homologous recombination (HR) pathways or in gene‐targeting have not been analyzed. In order to facilitate our analyses, we generated an AtRad52‐1A variant that had a stronger nuclear localization than the native gene thanks to the removal of the transit peptide for mitochondrial localization and to the addition of a nuclear localization signal. Over‐expression of this variant increased HR in the nucleus, compared with the native AtRad52‐1A: it increased intra‐chromosomal recombination and synthesis‐dependent strand‐annealing HR repair rates; but conversely, it repressed the single‐strand annealing pathway. The effect of AtRad52‐1A over‐expression on gene‐targeting was tested with and without the expression of small RNAs generated from an RNAi construct containing homology to the target and donor sequences. True gene‐targeting events at the Arabidopsis Cruciferin locus were obtained only when combining AtRad52‐1A over‐expression and target/donor‐specific RNAi. This suggests that sequence‐specific small RNAs might be involved in AtRad52‐1A‐mediated HR. |
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Keywords: | DNA double‐strand break repair homologous recombination gene‐targeting Rad52
Arabidopsis thaliana
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