Asx-Cys、Glx-Cys 内源性化学连接：外消旋蛋白晶体学的 ShK 毒素的化学合成和高分辨率 X 射线结构。

Native chemical ligation at Asx-Cys, Glx-Cys: chemical synthesis and high-resolution X-ray structure of ShK toxin by racemic protein crystallography.

机构信息

Department of Chemistry, Institute for Biophysical Dynamics, University of Chicago, Chicago, Illinois 60637, USA.

出版信息

J Am Chem Soc. 2013 Aug 14;135(32):11911-9. doi: 10.1021/ja4046795. Epub 2013 Aug 6.

DOI:10.1021/ja4046795

PMID:23919482

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3838204/

Abstract

We have re-examined the utility of native chemical ligation at -Gln/Glu-Cys- [Glx-Cys] and -Asn/Asp-Cys- [Asx-Cys] sites. Using the improved thioaryl catalyst 4-mercaptophenylacetic acid (MPAA), native chemical ligation could be performed at -Gln-Cys- and Asn-Cys- sites without side reactions. After optimization, ligation at a -Glu-Cys- site could also be used as a ligation site, with minimal levels of byproduct formation. However, -Asp-Cys- is not appropriate for use as a site for native chemical ligation because of formation of significant amounts of β-linked byproduct. The feasibility of native chemical ligation at -Gln-Cys- enabled a convergent total chemical synthesis of the enantiomeric forms of the ShK toxin protein molecule. The D-ShK protein molecule was ~50,000-fold less active in blocking the Kv1.3 channel than the L-ShK protein molecule. Racemic protein crystallography was used to obtain high-resolution X-ray diffraction data for ShK toxin. The structure was solved by direct methods and showed significant differences from the previously reported NMR structures in some regions of the ShK protein molecule.

摘要

我们重新考察了在 -Gln/Glu-Cys-[Glx-Cys] 和 -Asn/Asp-Cys-[Asx-Cys] 位点进行天然化学连接的实用性。使用改进的噻吩基催化剂 4-巯基苯乙酸（MPAA），可以在 -Gln-Cys- 和 Asn-Cys- 位点进行天然化学连接，而不会发生副反应。经过优化，-Glu-Cys- 位点也可以作为连接位点使用，副产物的生成水平最低。然而，-Asp-Cys- 不适合作为天然化学连接的位点，因为会形成大量的β-连接副产物。在 -Gln-Cys- 进行天然化学连接的可行性使得 ShK 毒素蛋白分子的对映异构体可以通过收敛的全化学合成来实现。D-ShK 蛋白分子对 Kv1.3 通道的阻断活性比 L-ShK 蛋白分子低约 50,000 倍。外消旋蛋白晶体学用于获得 ShK 毒素的高分辨率 X 射线衍射数据。该结构通过直接方法解决，并显示出与 ShK 蛋白分子的一些区域中先前报道的 NMR 结构的显著差异。

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