The ATPase Motif in RAD51D is Required for Resistance to DNA Interstrand Crosslinking Agents and Interaction with RAD51C

Overview

Journal Mutagenesis

Publisher Oxford University Press

Specialties Environmental Health
Genetics

Date 2005 Oct 21

PMID 16236763

Citations 16

Authors

Aaron M Gruver

Kristi A Miller

Changanamkandath Rajesh

Phillip G Smiraldo

Saravanan Kaliyaperumal

Rachel Balder

Katie M Stiles

Joanna S Albala

Douglas L Pittman

Affiliations

Soon will be listed here.

Abstract

Homologous recombination (HR) is a mechanism for repairing DNA interstrand crosslinks and double-strand breaks. In mammals, HR requires the activities of the RAD51 family (RAD51, RAD51B, RAD51C, RAD51D, XRCC2, XRCC3 and DMC1), each of which contains conserved ATP binding sequences (Walker Motifs A and B). RAD51D is a DNA-stimulated ATPase that interacts directly with RAD51C and XRCC2. To test the hypothesis that ATP binding and hydrolysis by RAD51D are required for the repair of interstrand crosslinks, site-directed mutations in Walker Motif A were generated, and complementation studies were performed in Rad51d-deficient mouse embryonic fibroblasts. The K113R and K113A mutants demonstrated a respective 96 and 83% decrease in repair capacity relative to wild-type. Further examination of these mutants, by yeast two-hybrid analyses, revealed an 8-fold reduction in the ability to associate with RAD51C whereas interaction with XRCC2 was retained at a level similar to the S111T control. These cell-based studies are the first evidence that ATP binding and hydrolysis by RAD51D are required for efficient HR repair of DNA interstrand crosslinks.

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