Brust Andreas, Tickle Alice E
Xenome Ltd, 120 Meiers Road, Indooroopilly 4068, Australia.
J Pept Sci. 2007 Feb;13(2):133-41. doi: 10.1002/psc.825.
Conotoxins exhibit a high degree of selectivity and potency for a range of pharmacologically relevant targets. The rapid access to libraries of conotoxin analogues, containing multiple intramolecular disulfide bridges for use in drug development, can be a very labor intensive, multi-step task. This work describes a high-throughput method for the synthesis of cystine-bridged conopeptides. Peptides were assembled on a peptide synthesizer employing the Fmoc solid-phase strategy using a safety-catch amide linker (SCAL). Side-chain protecting groups were removed on solid phase before SCAL activation with ammonium iodide in TFA, finally releasing the peptide into the TFA solution. Disulfide bond formation was performed in the cleavage mixture employing DMSO. This improved method allows mixtures of oxidized peptides to be obtained in parallel directly from a peptide synthesizer. A single HPLC purification of the resulting crude oxidized material produced peptides of > 95% purity.
芋螺毒素对一系列药理学相关靶点表现出高度的选择性和效力。快速获取用于药物开发的含有多个分子内二硫键的芋螺毒素类似物文库可能是一项非常耗费人力的多步骤任务。这项工作描述了一种用于合成胱氨酸桥连芋螺肽的高通量方法。肽在肽合成仪上采用Fmoc固相策略,使用安全扣酰胺连接子(SCAL)进行组装。在TFA中用碘化铵激活SCAL之前,在固相上去除侧链保护基团,最终将肽释放到TFA溶液中。在裂解混合物中使用DMSO进行二硫键形成。这种改进的方法允许直接从肽合成仪并行获得氧化肽混合物。对所得粗氧化材料进行单次HPLC纯化可得到纯度>95%的肽。
