Simultaneously synthesized peptides on continuous cellulose membranes as substrates for protein kinases.

Peptide research Pub Date : 1996-01-01

R Toomik, M Edlund, P Ek, B Obrink, L Engström

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Abstract

Sets of peptides with defined sequences, each on a separate spot, were synthesized simultaneously on continuous cellulose membranes (SPOTs membranes), which were originally designed for epitope studies. The applicability of the membrane-bound peptides as substrates for protein kinases was tested using protein kinase A, protein kinase C and casein kinases I and II as model enzymes. We found that the peptide-membrane complexes can serve as kinase substrates. Our results suggest that membrane-bound peptides offer a new potential for the investigation of substrate specificity of protein kinases. An advantage to this method is that there is no need for substrate identification and separation, which is required with high-volume random peptide libraries. Membrane-bound peptides may even form a basis for kinase assays with peptides lacking multiple basic amino acids, required for separation of the substrates in conventional assays. Problems connected with protein kinase substrate specificity can be investigated in any laboratory using the rapid and inexpensive SPOTs technique, as neither costly apparatus nor special experience in peptide synthesis is necessary.

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在连续的纤维素膜上同时合成多肽作为蛋白激酶的底物。

在连续的纤维素膜(spot膜)上同时合成具有确定序列的肽，每个肽位于单独的位点上，这些连续的纤维素膜最初是为表位研究而设计的。以蛋白激酶A、蛋白激酶C和酪蛋白激酶I和II为模型酶，对膜结合肽作为蛋白激酶底物的适用性进行了测试。我们发现肽膜复合物可以作为激酶底物。我们的研究结果表明，膜结合肽为研究蛋白激酶的底物特异性提供了新的潜力。这种方法的一个优点是不需要底物鉴定和分离，而这是高容量随机肽库所必需的。膜结合肽甚至可以与缺乏多种碱性氨基酸的肽形成激酶分析的基础，这是传统分析中分离底物所必需的。与蛋白激酶底物特异性相关的问题可以在任何实验室使用快速和廉价的斑点技术进行研究，因为既不需要昂贵的仪器也不需要肽合成的特殊经验。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Peptide research

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