将诱变和并行深度测序相结合,以探测基因组或基因中的必需残基。
Coupling mutagenesis and parallel deep sequencing to probe essential residues in a genome or gene.
机构信息
Department of Microbiology and Immunobiology, Harvard Medical School, Boston, MA 02115, USA.
出版信息
Proc Natl Acad Sci U S A. 2013 Feb 26;110(9):E848-57. doi: 10.1073/pnas.1222538110. Epub 2013 Feb 11.
Abstract
The sequence of a protein determines its function by influencing its folding, structure, and activity. Similarly, the most conserved residues of orthologous and paralogous proteins likely define those most important. The detection of important or essential residues is not always apparent via sequence alignments because these are limited by the depth of any given gene's phylogeny, as well as specificities that relate to each protein's unique biological origin. Thus, there is a need for robust and comprehensive ways of evaluating the importance of specific amino acid residues of proteins of known or unknown function. Here we describe an approach called Mut-seq, which allows the identification of virtually all of the essential residues present in a whole genome through the application of limited chemical mutagenesis, selection for function, and deep parallel genomic sequencing. Here we have applied this method to T7 bacteriophage and T7-like virus JSF7 of Vibrio cholerae.
摘要
蛋白质的序列通过影响其折叠、结构和活性来决定其功能。同样,直系同源和旁系同源蛋白质的最保守残基可能定义了那些最重要的残基。通过序列比对并不总能明显检测到重要或必需的残基,因为这些残基受到给定基因系统发育深度的限制,以及与每种蛋白质独特生物起源相关的特异性的限制。因此,需要有稳健和全面的方法来评估具有已知或未知功能的蛋白质的特定氨基酸残基的重要性。在这里,我们描述了一种称为 Mut-seq 的方法,该方法通过应用有限的化学诱变、功能选择和深度平行基因组测序,可以鉴定整个基因组中存在的几乎所有必需残基。在这里,我们已经将这种方法应用于 T7 噬菌体和霍乱弧菌的 T7 样病毒 JSF7。
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