Moore C W, Hampsey D M, Ernst J F, Sherman F
Department of Biophysics, University of Rochester School of Medicine and Dentistry, New York 14642.
Genetics. 1988 May;119(1):21-34. doi: 10.1093/genetics/119.1.21.
Recombination rates have been examined in two-point crosses of various defined cyc1 mutations that cause the loss or nonfunction of iso-1-cytochrome c in the yeast Saccharomyces cerevisiae. Recombinants arising by three different means were investigated, including X-ray induced mitotic recombination, spontaneous mitotic recombination, and meiotic recombination. Heteroallelic diploid strains were derived by crossing cyc1 mutants containing a series of alterations at or near the same site to cyc1 mutants containing alterations at various distances. Marked disproportionalities between physical distances and recombination frequencies were observed with certain cyc1 mutations, indicating that certain mismatched bases can significantly affect recombination. The marker effects were more pronounced when the two mutational sites of the heteroalleles were within about 20 base pairs, but separated by at least 4 base pairs. Two alleles, cyc1-163 and cyc1-166, which arose by G.C----C.G transversions at nucleotide positions 3 and 194, respectively, gave rise to especially high rates of recombination. Other mutations having different substitutions at the same nucleotide positions were not associated with abnormally high recombination frequencies. We suggest that these marker effects are due to the lack of repair of either G/G or C/C mismatched base pairs, while the other mismatched base pair of the heteroallele undergoes substantial repair. Furthermore, we suggest that diminished recombination frequencies are due to the concomitant repair of both mismatches within the same DNA tract.
在酿酒酵母中,针对各种已定义的cyc1突变进行了两点杂交实验,这些突变会导致iso-1-细胞色素c丧失或功能异常。研究了通过三种不同方式产生的重组体,包括X射线诱导的有丝分裂重组、自发有丝分裂重组和减数分裂重组。通过将在同一位点或其附近含有一系列改变的cyc1突变体与在不同距离处含有改变的cyc1突变体杂交,获得了异等位基因二倍体菌株。某些cyc1突变在物理距离和重组频率之间观察到明显的不成比例,这表明某些错配碱基可显著影响重组。当异等位基因的两个突变位点在约20个碱基对之内但至少相隔4个碱基对时,标记效应更为明显。两个等位基因cyc1-163和cyc1-166分别在核苷酸位置3和194处由G.C----C.G颠换产生,导致特别高的重组率。在相同核苷酸位置具有不同取代的其他突变与异常高的重组频率无关。我们认为这些标记效应是由于G/G或C/C错配碱基对缺乏修复,而异等位基因的另一个错配碱基对则经历了大量修复。此外,我们认为重组频率降低是由于同一DNA片段内两个错配同时得到修复。