Li Jiabin, Li Yuanyuan, He Qiaoqiao, Li Yiming, Li Haitao, Liu Lei
Tsinghua-Peking Center for Life Sciences, Key Laboratory of Bioorganic Phosphorus Chemistry & Chemical Biology (Ministry of Education), Department of Chemistry, MOE Key Laboratory of Protein Sciences, Center for Structural Biology, School of Life Sciences and School of Medicine, Tsinghua University, Beijing 100084, China.
Org Biomol Chem. 2014 Aug 7;12(29):5435-41. doi: 10.1039/c4ob00715h.
One of the rising demands in the field of protein chemical synthesis is the development of facile strategies that yield the protein in workable quantities and homogeneity, with fewer handling steps. Although the native chemical ligation of peptide hydrazides has recently been shown to be useful for the chemical synthesis of proteins carrying acid-sensitive modification groups, previous hydrazide-based protein synthesis studies have used sequential ligation strategies. Here, we report a practical method for a "one-pot" native chemical ligation of peptide hydrazides that would circumvent the need for the isolation of the intermediate products. This method employed a fast and selective arylboronate oxidation reaction mediated by H2O2, which draws attention to the potential applications of the thus far under-exploited boron-based functionalities in protein chemical synthesis. To demonstrate the practicality and efficiency of the new one-pot method, we report its application to a scalable total synthesis of modified histones (with five analogues of H3 and H4 as examples) on a multi-milligram scale, with good homogeneity.
蛋白质化学合成领域中日益增长的需求之一是开发简便的策略,以产生具有可操作数量和均一性的蛋白质,且操作步骤更少。尽管最近已证明肽酰肼的天然化学连接对于携带酸敏修饰基团的蛋白质的化学合成有用,但以前基于酰肼的蛋白质合成研究使用的是顺序连接策略。在此,我们报告了一种肽酰肼“一锅法”天然化学连接的实用方法,该方法无需分离中间产物。该方法采用了由H2O2介导的快速且选择性的芳基硼酸酯氧化反应,这使人们关注到迄今为止未充分利用的硼基官能团在蛋白质化学合成中的潜在应用。为了证明新一锅法的实用性和效率,我们报告了其在毫克级规模上可扩展的修饰组蛋白全合成(以H3和H4的五个类似物为例)中的应用,且具有良好的均一性。
