The Howard P. Isermann Department of Chemical and Biological Engineering, Rensselaer Polytechnic Institute, Troy, NY 12180, USA.
Mol Divers. 2013 May;17(2):357-69. doi: 10.1007/s11030-013-9436-z. Epub 2013 Mar 27.
Design of peptide affinity ligands against biological targets is important for a broad range of applications. Here, we report on de novo and combinatorial strategies for the design of high-affinity and high-specificity peptides against S-protein as a target. The peptide libraries employed in this study contain (1) consensus motif (CM) sequences identified from high-throughput phage combinatorial screening, (2) point mutations of CM sequences, and (3) de novo sequences rationally designed based on stereo-chemical information of the complex between S-protein and its natural ligand, S-peptide. In general, point mutations to CM allowed for modulating peptide affinity and specificity over a broad range. This is particularly useful in designing peptides with varying affinities and specificities for the target. De novo sequences, especially those based on the S-protein binding pocket, on average bound with higher affinities within a narrow range (10-100 nM) as compared to point mutations to CM (1 nM-2 μM). As such, the approaches described here serve as a general guide for optimizing the design of peptide affinity ligands for a wide range of target proteins or applications.
针对生物靶标的肽亲和配体的设计对于广泛的应用非常重要。在这里,我们报告了针对 S 蛋白作为靶标的高亲和力和高特异性肽的从头设计和组合策略。本研究中使用的肽文库包含 (1) 从高通量噬菌体组合筛选中鉴定出的共识基序 (CM) 序列,(2) CM 序列的点突变,以及 (3) 基于 S 蛋白与其天然配体 S-肽之间复合物的立体化学信息合理设计的从头序列。通常,CM 的点突变允许在广泛的范围内调节肽的亲和力和特异性。这在设计针对靶标具有不同亲和力和特异性的肽方面特别有用。与 CM 的点突变相比,从头序列,尤其是基于 S 蛋白结合口袋的序列,通常在较窄的范围内(10-100 nM)具有更高的亲和力(1 nM-2 μM)。因此,这里描述的方法可作为针对广泛的靶标蛋白或应用优化肽亲和配体设计的一般指南。