Identification of Two Topologically Independent Domains in RAG1 and Their Role in Macromolecular Interactions Relevant to V(D)J Recombination

Identification of Two Topologically Independent Domains in RAG1 and Their Role in Macromolecular Interactions Relevant to V(D)J Recombination

V(D)J recombination is instigated by the recombination-activating proteins RAG1 and RAG2, which catalyze site-specific DNA cleavage at the border of the recombination signal sequence (RSS). Although both proteins are required for activity, core RAG1 (the catalytically active region containing residu...

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Bibliographic Details
Published in:The Journal of biological chemistry Vol. 276; no. 40; pp. 37093 - 37101
Main Authors: Arbuckle, Janeen L., Fauss, LeAnn J., Simpson, Rosemarie, Ptaszek, Leon M., Rodgers, Karla K.
Format: Journal Article
Language:English
Published: United States Elsevier Inc 05-10-2001
American Society for Biochemistry and Molecular Biology
Subjects:
Animals
Binding Sites
Dimerization
DNA - metabolism
DNA Nucleotidyltransferases - metabolism
Gene Rearrangement - physiology
Homeodomain Proteins - chemistry
Homeodomain Proteins - metabolism
Mice
Protein Conformation
Protein Structure, Tertiary
RAG1 protein
Trypsin - metabolism
VDJ Recombinases
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Summary:V(D)J recombination is instigated by the recombination-activating proteins RAG1 and RAG2, which catalyze site-specific DNA cleavage at the border of the recombination signal sequence (RSS). Although both proteins are required for activity, core RAG1 (the catalytically active region containing residues 384–1008 of 1040) alone displays binding specificity for the conserved heptamer and nonamer sequences of the RSS. The nonamer-binding region lies near the N terminus of core RAG1, whereas the heptamer-binding region has not been identified. Here, potential domains within core RAG1 were identified using limited proteolysis studies. An iterative procedure of DNA cloning, protein expression, and characterization revealed the presence of two topologically independent domains within core RAG1, referred to as the central domain (residues 528–760) and the C-terminal domain (residues 761–980). The domains do not include the nonamer-binding region but rather largely span the remaining relatively uncharacterized region of core RAG1. Characterization of macromolecular interactions revealed that the central domain bound to the RSS with specificity for the heptamer and contained the predominant binding site for RAG2. The C-terminal domain bound DNA cooperatively but did not show specificity for either conserved RSS element. This domain was also found to self-associate, implicating it as a dimerization domain within RAG1.
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ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M105988200