用S1核酸酶定位DNA突变改变的生化方法:猴病毒40中缺失和温度敏感突变的定位
Biochemical method for mapping mutational alterations in DNA with S1 nuclease: the location of deletions and temperature-sensitive mutations in simian virus 40.
作者信息
Shenk T E, Rhodes C, Rigby P W, Berg P
出版信息
Proc Natl Acad Sci U S A. 1975 Mar;72(3):989-93. doi: 10.1073/pnas.72.3.989.
Abstract
S1 nuclease (EC 3.1.4.X), a single-strand-specific nuclease, can be used to accurately map the location of mutational alterations in simian virus 40 (SV40) DNA. Deletions of between 32 and 190 base pairs, which are at or below the limit of detectability by conventional electron microscopic analysis of heteroduplex DNAs, have been located in this way. To map a deletion, a mixture of unit length, linear DNA, prepared from the SV40 deletion mutant and its wild-type parent, are denatured and reannealed to form heteroduplexes. S1 nuclease can cut such heteroduplexes at the nonbase-paired region to produce fragments whose lengths correspond to the position of the deletion. Similarly, specific fragments are produced when S1 nuclease cleaves a heteroduplex formed from the DNAs of SV40 temperature-sensitive mutants and either their revertants or wild-type parents. Thus, the positions of the nonhomology between these DNAs can be determined.
摘要
S1核酸酶(EC 3.1.4.X)是一种单链特异性核酸酶,可用于精确绘制猴病毒40(SV40)DNA中突变改变的位置。通过这种方法已定位出32至190个碱基对之间的缺失,这些缺失在通过传统电子显微镜分析异源双链DNA的可检测极限或以下。为了绘制缺失图谱,将从SV40缺失突变体及其野生型亲本制备的单位长度线性DNA混合物变性并重新退火以形成异源双链体。S1核酸酶可在非碱基配对区域切割此类异源双链体,以产生长度与缺失位置相对应的片段。同样,当S1核酸酶切割由SV40温度敏感突变体及其回复体或野生型亲本的DNA形成的异源双链体时,会产生特定的片段。因此,可以确定这些DNA之间的非同源性位置。
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