1 research outputs found
CtIP tetramer assembly is required for DNA-end resection and repair.
Mammalian CtIP protein has major roles in DNA double-strand break (DSB) repair. Although it is well established that CtIP promotes DNA-end resection in preparation for homology-dependent DSB repair, the molecular basis for this function has remained unknown. Here we show by biophysical and X-ray crystallographic analyses that the N-terminal domain of human CtIP exists as a stable homotetramer. Tetramerization results from interlocking interactions between the N-terminal extensions of CtIP's coiled-coil region, which lead to a 'dimer-of-dimers' architecture. Through interrogation of the CtIP structure, we identify a point mutation that abolishes tetramerization of the N-terminal domain while preserving dimerization in vitro. Notably, we establish that this mutation abrogates CtIP oligomer assembly in cells, thus leading to strong defects in DNA-end resection and gene conversion. These findings indicate that the CtIP tetramer architecture described here is essential for effective DSB repair by homologous recombination.We thank M. Kilkenny for help with the collection of X-ray diffraction data,
A. Sharff and P. Keller for help with X-ray data processing and J.D. Maman for
assistance with SEC-MALS. This work was supported by a Wellcome Trust Senior
Research Fellowship award in basic biomedical sciences (L.P.), an Isaac Newton
Trust research grant (L.P. and O.R.D.) and a Cambridge Overseas Trust PhD
studentship (M.D.S.). Research in the laboratory of S.P.J. is funded by Cancer
Research UK (CRUK; programme grant C6/A11224), the European Research
Council and the European Community Seventh Framework Programme
(grant agreement no. HEALTH-F2-2010-259893 (DDResponse)). Core funding
is provided by Cancer Research UK (C6946/A14492) and the Wellcome
Trust (WT092096). S.P.J. receives his salary from the University of Cambridge,
supplemented by CRUK. J.V.F. is funded by Cancer Research UK programme
grant C6/A11224 and the Ataxia Telangiectasia Society. R.B. and J.C. are funded by
Cancer Research UK programme grant C6/A11224. Y.G. and M.D. are funded by
the European Research Council grant DDREAM.This is the accepted manuscript of a paper published in Nature Structural & Molecular Biology, 22, 150–157 (2015) doi: 10.1038/nsmb.293