锌指蛋白及人工锌指蛋白对微生物代谢影响的研究进展

锌指蛋白由于锌指结构域序列相对保守,识别DNA序列具有高度特异性,所以成为研究较广泛的DNA结合蛋白,但目前对锌指蛋白的研究多集中在真核细胞,而对微生物锌指蛋白,尤其是原核微生物锌指蛋白的研究相对较少。本文综述了近年来微生物锌指蛋白,尤其是原核微生物锌指蛋白的发现及功能的最新研究进展,以及人工锌指蛋白技术在微生物菌株改造中的应用。特定人工锌指蛋白不仅可调控微生物细胞中多基因控制的复杂性状,例如耐热性、乙醇和丁醇耐性、渗透胁迫耐受性等,还可以利用锌指结构域构建DNA脚手架系统,进而构建复合酶系统,从而提高催化效率和代谢物产量。目前报道的用于微生物代谢调控的人工锌指蛋白利用的都是哺乳动物的基因,未来根据不同微生物中天然锌指蛋白的序列进行人工锌指的设计,将拓展人工转录因子技术在微生物全局基因表达调控中的应用。     

Photo-induced oxidative cross-linking as a method to evaluate the specificity of protein-ligand interactions.

The isolation of protein-binding synthetic molecules from combinatorial libraries or compound collections is now a common practice in chemical biology. An important, but underdeveloped, aspect of characterizing the binding properties of such molecules is their level of binding specificity. This is often evaluated by simply measuring the equilibrium binding affinity of the compound of interest with its target protein and comparing this value with its affinity to one or a few other purified proteins selected at random. These measurements may not reflect accurately the ability of the compound to seek out its target in a complex mixture of proteins such as a cell extract or serum. A more desirable alternative would be to develop solution assays that measure directly the binding of the molecule of interest to both target and competitor proteins in complex solutions. In this report, we evaluate a rapid and efficient photo-triggered cross-linking reaction for assessing binding specificity of synthetic molecules in protein mixtures. Using peptide-protein complexes, we demonstrate that this reaction provides an unbiased view of the peptide-protein contacts present in solution under a given set of conditions and thus is useful for assessing binding specificity. We also discuss the potential application of this chemistry to the related, but more difficult, problem of the identification of protein targets of bioactive molecules.