Evans Paul M, Liu Chunming
Department of Biochemistry and Molecular Biology, University of Texas Medical Branch, Galveston, USA.
BMC Mol Biol. 2005 Dec 1;6:22. doi: 10.1186/1471-2199-6-22.
Site-directed mutagenesis is a widely-used technique for introducing mutations into a particular DNA sequence, often with the goal of creating a point mutation in the corresponding amino acid sequence but otherwise leaving the overall sequence undisturbed. However, this method provides no means for verifying its success other than sequencing the putative mutant construct: This can quickly become an expensive method for screening for successful mutations. An alternative to sequencing is to simultaneously introduce a restriction site near the point mutation in manner such that the restriction site has no effect on the translated amino acid sequence. Thus, the novel restriction site can be used as a marker for successful mutation which can be quickly and easily assessed. However, finding a restriction site that does not disturb the corresponding amino acid sequence is a time-consuming task even for experienced researchers. A fast and easy to use computer program is needed for this task.
We wrote a computer program, called SiteFind, to help us design a restriction site within the mutation primers without changing the peptide sequence. Because of the redundancy of genetic code, a given peptide can be encoded by many different DNA sequences. Since the list of possible restriction sites for a given DNA sequence is not always obvious, SiteFind automates this task. The number of possible sequences a computer program must search through increases exponentially as the sequence length increases. SiteFind uses a novel "moving window" algorithm to reduce the number of possible sequences to be searched to a manageable level. The user enters a nucleotide sequence, specifies what amino acid residues should be changed in the mutation, and SiteFind generates a list of possible restriction sites and what nucleotides must be changed to introduce that site. As a demonstration of its use, we successfully generated a single point mutation and a double point mutation in the wild-type sequence for Krüppel-like factor 4, an epithelium-specific transcription factor.
SiteFind is an intuitive, web-based program that enables the user to introduce a novel restriction site into the mutated nucleotide sequence for use as a marker of successful mutation. It is freely available from http://www.utmb.edu/scccb/software/sitefind.html.
定点诱变是一种广泛应用的技术,用于将突变引入特定的DNA序列,其目的通常是在相应的氨基酸序列中产生点突变,而使整个序列的其他部分不受影响。然而,除了对假定的突变构建体进行测序外,该方法没有其他手段来验证其是否成功:对于筛选成功的突变而言,这很快就会成为一种昂贵的方法。测序的替代方法是在靠近点突变的位置以不影响翻译后的氨基酸序列的方式同时引入一个限制酶切位点。因此,这个新的限制酶切位点可以用作成功突变的标记,能够快速且容易地进行评估。然而,即使对于经验丰富的研究人员来说,找到一个不干扰相应氨基酸序列的限制酶切位点也是一项耗时的任务。需要一个快速且易于使用的计算机程序来完成这项任务。
我们编写了一个名为SiteFind的计算机程序,以帮助我们在不改变肽序列的情况下,在突变引物中设计一个限制酶切位点。由于遗传密码的冗余性,给定的肽可以由许多不同的DNA序列编码。由于给定DNA序列可能的限制酶切位点列表并不总是显而易见的,SiteFind使这项任务自动化。随着序列长度的增加,计算机程序必须搜索的可能序列数量呈指数增长。SiteFind使用一种新颖的“移动窗口”算法,将需要搜索的可能序列数量减少到可管理的水平。用户输入一个核苷酸序列,指定在突变中应该改变哪些氨基酸残基,然后SiteFind生成可能的限制酶切位点列表以及为引入该位点必须改变哪些核苷酸。作为其用途的一个例证,我们在野生型Krüppel样因子4(一种上皮特异性转录因子)序列中成功产生了一个单点突变和一个双点突变。
SiteFind是一个基于网络的直观程序,它能让用户将一个新的限制酶切位点引入突变的核苷酸序列中,用作成功突变的标记。该程序可从http://www.utmb.edu/scccb/software/sitefind.html免费获取。
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