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Abstract
Hundreds of target specific peptides are routinely discovered by peptide display platforms. However, due to the high cost of peptide synthesis only a limited number of peptides are chemically made for further analysis. Here we describe an accurate and cost effective method to bin peptides on-phage based on binding region(s), without any requirement for peptide or protein synthesis. This approach, which integrates phage and yeast display platforms, requires display of target and its alanine variants on yeast. Flow cytometry was used to detect binding of peptides on-phage to the target on yeast. Once hits were identified, they were synthesized to confirm their binding region(s) by HDX (Hydrogen deuterium exchange) and crystallography. Moreover, we have successfully shown that this approach can be implemented as part of a panning process to deplete non-functional peptides. This technique can be applied to any target that can be successfully displayed on yeast; it narrows down the number of peptides requiring synthesis; and its utilization during selection results in enrichment of peptide population against defined binding regions on the target.
Highlights
Peptide discovery platforms such as phage display have facilitated de novo peptide discovery of hundreds of target specific peptide-phage [1,2,3,4,5,6]
We developed a high-throughput flow cytometry based screening assay to compare binding of selected peptides as displayed on-phage to IL-23 alanine variants displayed on yeast
PathHunter1 U2OS IL-23R/IL12RB1 Dimerization Cell Line was purchased from DiscoverX (#93-1007C3). 96-well half area plates used in the dimerization assay were from Costar (#3688)
Summary
Peptide discovery platforms such as phage display have facilitated de novo peptide discovery of hundreds of target specific peptide-phage [1,2,3,4,5,6]. The diversity of the peptide library increases the chance of identifying hits with the desired properties. Classification of peptides on-phage based on their binding region using yeast display specific roles of these authors are articulated in the ‘author contributions’ section
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