通过肟形成连接化学合成的“迷你胰岛素原”仿生合成赖脯胰岛素。
Biomimetic synthesis of lispro insulin via a chemically synthesized "mini-proinsulin" prepared by oxime-forming ligation.
机构信息
Department of Biochemistry and Molecular Biology, Institute for Biophysical Dynamics, The University of Chicago, 929 East 57th Street, Chicago, Illinois 60637, USA.
出版信息
J Am Chem Soc. 2009 Nov 11;131(44):16313-8. doi: 10.1021/ja9052398.
Abstract
Here we report a proof-of-principle study demonstrating the efficient folding, with concomitant formation of the correct disulfides, of an isolated polypeptide insulin precursor of defined covalent structure. We used oxime-forming chemical ligation to introduce a temporary "chemical tether" to link the N-terminal residue of the insulin A chain to the C-terminal residue of the insulin B chain; the tether enabled us to fold/form disulfides with high efficiency. Enzymatic removal of the temporary chemical tether gave mature, fully active insulin. This chemical tethering principle could form the basis of a practical, high yield total synthesis of insulin and analogues.
摘要
在这里,我们报告了一项原理验证研究,该研究证明了具有明确定义的共价结构的分离多肽胰岛素前体的有效折叠,同时形成了正确的二硫键。我们使用肟形成化学连接来引入临时“化学连接物”,将胰岛素 A 链的 N 末端残基与胰岛素 B 链的 C 末端残基连接起来;该连接物使我们能够高效地折叠/形成二硫键。酶促去除临时化学连接物得到成熟的、具有完全活性的胰岛素。这种化学连接原理可以为胰岛素及其类似物的实用、高产的全合成奠定基础。
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