Differential reaction kinetics, cleavage complex formation, and nonamer binding domain dependence dictate the structure-specific and sequence-specific nuclease activity of RAGs

Naik, Abani Kanta ; Raghavan, Sathees C. (2012) Differential reaction kinetics, cleavage complex formation, and nonamer binding domain dependence dictate the structure-specific and sequence-specific nuclease activity of RAGs Journal of Molecular Biology, 415 (3). pp. 475-488. ISSN 0022-2836

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Official URL: http://www.sciencedirect.com/science/article/pii/S...

Related URL: http://dx.doi.org/10.1016/j.jmb.2011.11.002

Abstract

During V(D)J recombination, RAG (Recombination-Activating Gene) complex cleaves DNA based on sequence specificity. Besides its physiological function, RAG has been shown to act as a structure-specific nuclease. Recently, we showed that the presence of cytosine within the single-stranded region of heteroduplex DNA is important when RAGs cleave on DNA structures. In the present study, we report that heteroduplex DNA containing a bubble region can be cleaved efficiently when present along with a Recombination Signal Sequence (RSS) in cis or trans configuration. The sequence of the bubble region influences RAG cleavage at RSS when present in cis. We also find that the kinetics of RAG cleavage differs between RSS and bubble, wherein RSS cleavage reaches maximum efficiency faster than bubble cleavage. In addition, unlike RSS, RAG cleavage at bubbles does not lead to cleavage complex formation. Finally, we show that the “nonamer binding region” which regulates RAG cleavage on RSS, is not important during RAG activity in non-B DNA structures. Therefore, in the current study, we identify the possible mechanism by which RAG cleavage is regulated when it acts as a structure-specific nuclease.

Item Type:Article
Source:Copyright of this article belongs to Elsevier Science.
Keywords:Double-strand Break; DNA Damage; Chromosomal Translocation; V(D)J Recombination; Leukemia
ID Code:104174
Deposited On:04 Apr 2017 10:08
Last Modified:04 Apr 2017 10:08

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