Miret J J, Milla M G, Lahue R S
Department of Biochemistry and Molecular Biology, University of Massachusetts Medical Center, Worcester 01655.
J Biol Chem. 1993 Feb 15;268(5):3507-13.
An activity present in nuclear extracts of the yeast Saccharomyces cerevisiae binds specifically to oligonucleotides containing DNA mismatches, as judged by a band shift assay. The specificity of this activity for mismatched DNA was confirmed by competition experiments; binding to radiolabeled heteroduplexes was abolished in the presence of excess unlabeled heteroduplex but not when excess unlabeled homoduplex was added. Both T/G and T/- (single base deletion) mispairs were recognized in each of two sequence contexts. Binding was also observed with G/G, G/A, A/C, and T/C mismatches, but recognition of a C/C mispair was very weak. Competition studies with the various mismatches were consistent with the idea that a single activity recognizes all mispairs tested. Extracts from strains mutant in either or both of two putative mismatch recognition functions, MSH2 and MSH3, were also tested. Mismatch-binding activity was present in extracts of msh3- strains but completely absent in msh2- strains. The molecular weight of the major binding protein was estimated by UV cross-linking experiments to be approximately 110 kDa, in good agreement with the size predicted for Msh2 protein (Reenan, R. A. and Kolodner, R. D. (1992) Genetics 132, 963-973).
通过凝胶迁移实验判断,酿酒酵母核提取物中的一种活性物质能特异性结合含有DNA错配的寡核苷酸。竞争实验证实了这种活性对错配DNA的特异性;在存在过量未标记异源双链体时,与放射性标记异源双链体的结合被消除,但添加过量未标记同源双链体时则不会。在两种序列背景下,T/G和T/-(单碱基缺失)错配均被识别。G/G、G/A、A/C和T/C错配也能观察到结合,但对C/C错配的识别非常弱。对各种错配的竞争研究与单一活性识别所有测试错配的观点一致。还测试了两个假定的错配识别功能MSH2和MSH3中一个或两个发生突变的菌株提取物。msh3-菌株的提取物中存在错配结合活性,但msh2-菌株的提取物中则完全没有。通过紫外线交联实验估计,主要结合蛋白的分子量约为110 kDa,与Msh2蛋白预测的大小高度一致(Reenan,R. A.和Kolodner,R. D.(1992年)遗传学132,963 - 973)。
