理性设计的短多异戊二烯连接 PglB 底物用于工程多肽和蛋白质 N-糖基化。

Rationally designed short polyisoprenol-linked PglB substrates for engineered polypeptide and protein N-glycosylation.

机构信息

Department of Chemistry, Chemistry Research Laboratory, Oxford University , Oxford OX1 3TA United Kingdom.

出版信息

J Am Chem Soc. 2014 Jan 15;136(2):566-9. doi: 10.1021/ja409409h. Epub 2013 Dec 31.

Abstract

The lipid carrier specificity of the protein N-glycosylation enzyme C. jejuni PglB was tested using a logical, synthetic array of natural and unnatural C10, C20, C30, and C40 polyisoprenol sugar pyrophosphates, including those bearing repeating cis-prenyl units. Unusual, short, synthetically accessible C20 prenols (nerylnerol 1d and geranylnerol 1e) were shown to be effective lipid carriers for PglB sugar substrates. Kinetic analyses for PglB revealed clear K(M)-only modulation with lipid chain length, thereby implicating successful in vitro application at appropriate concentrations. This was confirmed by optimized, efficient in vitro synthesis allowing >90% of Asn-linked β-N-GlcNAc-ylated peptide and proteins. This reveals a simple, flexible biocatalytic method for glycoconjugate synthesis using PglB N-glycosylation machinery and varied chemically synthesized glycosylation donor precursors.

摘要

我们利用一系列逻辑合理的天然和非天然 C10、C20、C30 和 C40 聚异戊二烯糖焦磷酸酯，包括带有重复顺式异戊二烯单元的类似物，测试了蛋白 N-糖基化酶 C. jejuni PglB 的脂质载体特异性。研究表明，不常见的、短的、可合成获得的 C20 异戊烯醇（橙花叔醇 1d 和香叶基橙花醇 1e）是 PglB 糖底物的有效脂质载体。对 PglB 的动力学分析显示，脂质链长具有明显的 K（M）调节作用，从而暗示在适当的浓度下可成功进行体外应用。通过优化、高效的体外合成实验得到了证实，该实验允许 >90%的 Asn 连接的β-N-GlcNAc 肽和蛋白质进行糖基化。这揭示了一种简单、灵活的糖缀合物合成方法，该方法使用 PglB N-糖基化酶和各种化学合成的糖基化供体前体。

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理性设计的短多异戊二烯连接 PglB 底物用于工程多肽和蛋白质 N-糖基化。

Rationally designed short polyisoprenol-linked PglB substrates for engineered polypeptide and protein N-glycosylation.

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