Department of Molecular and Cellular Biology, College of Biological Science, University of Guelph, Guelph, Ontario N1G 2W1, Canada.
Genetics. 2010 Jun;185(2):443-57. doi: 10.1534/genetics.110.115196. Epub 2010 Mar 22.
Initial events in double-strand break repair by homologous recombination in vivo involve homology searching, 3' strand invasion, and new DNA synthesis. While studies in yeast have contributed much to our knowledge of these processes, in comparison, little is known of the early events in the integrated mammalian system. In this study, a sensitive PCR procedure was developed to detect the new DNA synthesis that accompanies mammalian homologous recombination. The test system exploits a well-characterized gene targeting assay in which the transfected vector bears a gap in the region of homology to the single-copy chromosomal immunoglobulin mu heavy chain gene in mouse hybridoma cells. New DNA synthesis primed by invading 3' vector ends copies chromosomal mu-gene template sequences excluded by the vector-borne double-stranded gap. Following electroporation, specific 3' extension products from each vector end are detected with rapid kinetics: they appear after 0.5 hr, peak at 3-6 hr, and then decline, likely as a result of the combined effects of susceptibility to degradation and cell division. New DNA synthesis from each vector 3' end extends at least approximately 1000 nucleotides into the gapped region, but the efficiency declines markedly within the first approximately 200 nucleotides. Over this short distance, an average frequency of 3' extension for the two invading vector ends is approximately 0.007 events/vector backbone. DNA sequencing reveals precise copying of the cognate chromosomal mu-gene template. In unsynchronized cells, 3' extension is sensitive to aphidicolin supporting involvement of a replicative polymerase. Analysis suggests that the vast majority of 3' extensions reside on linear plasmid molecules.
体内同源重组双链断裂修复的初始事件涉及同源搜索、3'链入侵和新 DNA 合成。虽然酵母研究为我们对这些过程的认识做出了很大贡献,但相比之下,对整合哺乳动物系统中早期事件的了解甚少。在这项研究中,开发了一种敏感的 PCR 程序来检测伴随哺乳动物同源重组的新 DNA 合成。该测试系统利用了一种经过充分表征的基因靶向测定,其中转染载体在小鼠杂交瘤细胞中单拷贝染色体免疫球蛋白重链基因的同源区带有缺口。由入侵 3'载体末端引发的新 DNA 合成复制了由载体携带的双链缺口排除的染色体 mu 基因模板序列。电穿孔后,每个载体末端的特定 3'延伸产物以快速动力学出现:它们在 0.5 小时后出现,在 3-6 小时达到峰值,然后下降,可能是由于易降解和细胞分裂的综合影响。每个载体 3'末端的新 DNA 合成至少延伸约 1000 个核苷酸进入有缺口的区域,但在最初的约 200 个核苷酸内效率显著下降。在这个短距离内,两个入侵载体末端的 3'延伸的平均频率约为 0.007 个事件/载体主干。DNA 测序揭示了对同源染色体 mu 基因模板的精确复制。在未同步化的细胞中,3'延伸对 aphidicolin 敏感,支持复制聚合酶的参与。分析表明,绝大多数 3'延伸位于线性质粒分子上。