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Nucleic Acids Research 2005 33(22):6972-6981; doi:10.1093/nar/gki990
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Published online 9 December 2005

© The Author 2005. Published by Oxford University Press. All rights reserved
The online version of this article has been published under an open access model. Users are entitled to use, reproduce, disseminate, or display the open access version of this article for non-commercial purposes provided that: the original authorship is properly and fully attributed; the Journal and Oxford University Press are attributed as the original place of publication with the correct citation details given; if an article is subsequently reproduced or disseminated not in its entirety but only in part or as a derivative work this must be clearly indicated. For commercial re-use, please contact journals.permissions{at}oxfordjournals.org

Article

The leucine rich region of DNA-PKcs contributes to its innate DNA affinity

Shikha Gupta1 and Katheryn Meek*

Department of Pathobiology and Diagnostic Investigation, College of Veterinary Medicine Michigan State University East Lansing, MI 48824, USA 1Department of Microbiology and Molecular Genetics, College of Veterinary Medicine Michigan State University East Lansing, MI 48824, USA

*To whom correspondence should be addressed. Tel: +1 517 432 9505; Fax: +1 517 353 9004; Email: kmeek{at}msu.edu

Received September 29, 2005. Revised November 14, 2005. Accepted November 14, 2005.

DNA-PK is a protein complex that consists of a DNA-binding, regulatory subunit [Ku] and a larger ~465 kDa catalytic subunit [DNA-PKcs], a serine/threonine protein kinase. The kinase activity of DNA-PKcs resides between residues 3745 and 4013, a PI3 kinase domain. Another recognized domain within this large protein is a leucine zipper (LZ) motif or perhaps more appropriately designated a leucine rich region (LRR) that spans residues 1503–1602. Whereas, DNA-PK's kinase activity has been shown to be absolutely indispensable for its function in non-homologous end joining (NHEJ), little is known about the functional relevance of the LRR. Here we show that DNA-PKcs with point mutations in the LRR can only partially reverse the radiosensitive phenotype and V(D)J recombination deficits of DNA-PKcs deficient cells. Disruption of the LRR motif affects the ability to purify DNA-PKcs via its binding to DNA-cellulose, but does not affect its interaction with Ku or its catalytic activity. These data suggest that the LRR region of DNA-PKcs may contribute to its intrinsic DNA affinity, and moreover, that intrinsic DNA binding is important for optimal function of DNA-PKcs in repairing double strand breaks in living cells.


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