Hong Ziyong Z, Yu Ruixuan R, Zhang Xiaoyu, Webb Allison M, Burge Nathaniel L, Poirier Michael G, Ottesen Jennifer J
Department of Chemistry and Biochemistry, The Ohio State University, Columbus, Ohio, 43210.
Ohio State Biochemistry Graduate Program, The Ohio State University, Columbus, Ohio, 43210.
Pept Sci (Hoboken). 2023 Jul;115(4). doi: 10.1002/pep2.24323. Epub 2023 May 25.
Simple and efficient total synthesis of homogeneous and chemically modified protein samples remains a significant challenge. Here, we report development of a convergent hybrid phase native chemical ligation (CHP-NCL) strategy for facile preparation of proteins. In this strategy, proteins are split into ~100-residue blocks, and each block is assembled on solid support from synthetically accessible peptide fragments before ligated together into full-length protein in solution. With the new method, we increase the yield of CENP-A synthesis by 2.5-fold compared to the previous hybrid phase ligation approach. We further extend the new strategy to the total chemical synthesis of 212-residue linker histone H1.2 in unmodified, phosphorylated, and citrullinated forms, each from eight peptide segments with only one single purification. We demonstrate that fully synthetic H1.2 replicates the binding interactions of linker histones to intact mononucleosomes, as a proxy for the essential function of linker histones in the formation and regulation of higher order chromatin structure.
简单而高效地全合成均一且经过化学修饰的蛋白质样品仍然是一项重大挑战。在此,我们报告了一种用于简便制备蛋白质的收敛性混合相天然化学连接(CHP-NCL)策略。在该策略中,蛋白质被拆分为约100个残基的片段,每个片段在固相载体上由可通过合成获得的肽片段组装而成,然后在溶液中连接在一起形成全长蛋白质。采用这种新方法,与之前的混合相连接方法相比,我们将CENP-A的合成产率提高了2.5倍。我们进一步将新策略扩展至212个残基的连接组蛋白H1.2的全化学合成,包括未修饰、磷酸化和瓜氨酸化形式,每种形式均由八个肽段合成,且仅需一次纯化。我们证明,完全合成的H1.2能够复制连接组蛋白与完整单核小体的结合相互作用,以此作为连接组蛋白在高阶染色质结构形成和调控中的基本功能的替代指标。
