一种通用的非天然氨基酸诱变扫描方法。
A general method for scanning unnatural amino acid mutagenesis.
出版信息
ACS Chem Biol. 2009 Feb 20;4(2):109-13. doi: 10.1021/cb800271f.
Abstract
Current approaches to protein site-directed mutagenesis require an independent user operation for each mutation. This can impede large-scale scanning mutagenesis projects such as the mapping of protein interaction surfaces, active sites, or epitopes. It also prevents the creation of protein libraries of defined complexity for directed evolution purposes. Here we present a simple, fast, and effective way to perform scanning codon mutagenesis throughout a protein sequence. The process allows the researcher to define the new codon change, and therefore any amino acid mutation can be achieved. We demonstrate this approach by creating a library of proteins that contain single unnatural amino acid mutations encoded by the amber stop codon, TAG. The mutant proteins generated by this method can be expressed and assayed individually or used together as a mixed population of "rationally diversified" protein sequences.
摘要
目前的蛋白质定点突变方法需要对每个突变进行独立的用户操作。这可能会阻碍大规模的扫描突变项目,如蛋白质相互作用表面、活性位点或表位的作图。它还阻止了为定向进化目的而创建具有定义复杂性的蛋白质文库。在这里,我们提出了一种简单、快速和有效的方法,可在整个蛋白质序列中进行扫描密码子突变。该过程允许研究人员定义新的密码子变化,因此可以实现任何氨基酸突变。我们通过创建一个包含由琥珀终止密码子 TAG 编码的单个非天然氨基酸突变的蛋白质文库来证明这种方法。通过这种方法产生的突变蛋白可以单独表达和检测,也可以作为“理性多样化”的蛋白质序列混合群体一起使用。
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