有望为连接肽和糖肽的问题提供通用解决方案。
Promising general solution to the problem of ligating peptides and glycopeptides.
机构信息
Laboratory for Bioorganic Chemistry, Sloan-Kettering Institute for Cancer Research, 1275 York Avenue, New York, New York 10065, USA.
出版信息
J Am Chem Soc. 2010 Dec 1;132(47):17045-51. doi: 10.1021/ja1084628. Epub 2010 Nov 4.
Abstract
Our global goal is that of synthesizing complex polypeptides and glycopeptides in homogeneous form. Chemistry-derived access to homogeneous biologics could well have useful consequences in the discovery of drugs and vaccines. The key finding in this study is that thio acids can become highly competent acyl donors following even trace levels of oxidative activation, thereby undergoing amide bond formation upon reaction with N-terminal peptides. Though our data set does not establish the specific mechanism of this reaction, a framework to account for the fact that minute levels of oxidation actuate amide bond formation with high turnover is offered. An apparently general coupling of thio acids (including complex peptide thio acids with N-termini of complex peptides) has thus been realized. These ligations are conducted with minimal α-epimerization in the C-terminal group and allow for the coupling of N-terminal and C-terminal glycopeptides en route to homogeneous glycoproteins.
摘要
我们的全球目标是将复杂的多肽和糖肽以均相形式进行合成。化学衍生的均相生物制剂在药物和疫苗的发现中可能具有有用的结果。这项研究的关键发现是,硫代酸在痕量氧化激活后可以成为非常有能力的酰基供体,从而在与 N-末端肽反应时形成酰胺键。虽然我们的数据组没有确定该反应的具体机制,但提供了一个解释事实的框架,即微量的氧化作用会促使酰胺键形成高周转率。因此,已经实现了硫代酸的明显普遍偶联(包括具有复杂肽 N-末端的复杂肽硫代酸)。这些连接在 C-末端基团中α-差向异构化最小,并允许 N-末端和 C-末端糖肽的偶联,从而得到均一的糖蛋白。
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