A comparison of BRCT domains involved in nonhomologous end-joining: introducing the solution structure of the BRCT domain of polymerase lambda.
DNA repair (2008), Volume 7, Page 1340
Abstract:
Three of the four family X polymerases, DNA polymerase lambda, DNA polymerase mu, and TdT, have been associated with repair of double-strand DNA breaks by nonhomologous end-joining. Their involvement in this DNA repair process requires an N-terminal BRCT domain that mediates interaction with other protein factors required for recognition and binding of broken DNA ends. Here we present the NMR solution structure of the BRCT domain of DNA polymerase lambda, completing the structural portrait for this family of enzymes. Analysis of the overall fold of the polymerase lambda BRCT domain reveals structural similarity to the BRCT domains of polymerase mu and TdT, yet highlights some key sequence and structural differences that may account for important differences in the biological activities of these enzymes and their roles in nonhomologous end-joining. Mutagenesis studies indicate that the conserved Arg57 residue of Pol lambda plays a more critical role for binding to the XRCC4-Ligase IV complex than its structural homolog in Pol mu, Arg43. In contrast, the hydrophobic Leu60 residue of Pol lambda contributes less significantly to binding than the structurally homologous Phe46 residue of Pol mu. A third leucine residue involved in the binding and activity of Pol mu, is nonconservatively replaced by a glutamine in Pol lambda (Gln64) and, based on binding and activity data, is apparently unimportant for Pol lambda interactions with the NHEJ complex. In conclusion, both the structure of the Pol lambda BRCT domain and its mode of interaction with the other components of the NHEJ complex significantly differ from the two previously studied homologs, Pol mu and TdT.
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Status:
new | topics/pols set | partial results | complete | validated |
Results:
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