TY - JOUR T1 - Secondary Structure Motifs Made Searchable to Facilitate the Functional Peptide Design JF - bioRxiv DO - 10.1101/651315 SP - 651315 AU - Cheng-Yu Tsai AU - Emmanuel O Salawu AU - Hongchun Li AU - Guan-Yu Lin AU - Ting-Yu Kuo AU - Liyin Voon AU - Adarsh Sharma AU - Kai-Di Hu AU - Yi-Yun Cheng AU - Sobha Sahoo AU - Lutimba Stuart AU - Chih-Wei Chen AU - Yuan-Yu Chang AU - Yu-Lin Lu AU - Ximai Ke AU - Chen-Chi Wu AU - Chung-Yu Lan AU - Hua-Wen Fu AU - Lee-Wei Yang Y1 - 2021/01/01 UR - http://biorxiv.org/content/early/2021/02/22/651315.abstract N2 - To ensure a physicochemically desired sequence motif to adapt a specific type of secondary structures, we compile an α-helix database allowing complicate search patterns to facilitate a data-driven design of therapeutic peptides. Nearly 1.7 million helical peptides in >130 thousand proteins are extracted along with their interacting partners from the protein data bank (PDB). The sequences of the peptides are indexed with patterns and gaps and deposited in our Therapeutic Peptide Design dataBase (TP-DB). We here demonstrate its utility in three medicinal design cases. By our pattern-based search engine but not PHI-BLAST, we can identify a pathogenic protein, Helicobacter pylori neutrophil-activating protein (HP-NAP), a virulence factor of H. pylori, which contains a motif DYKYLE that belongs to the affinity determinant motif DYKXX[DE] of the FLAG-tag and can be recognized by the anti-FLAG M2 antibody. By doing so, the known purification-tag-specific antibody is repurposed into a diagnostic kit for H. pylori. Also by leveraging TP-DB, we discovered a stretch of helical peptide matching the potent membrane-insertion pattern WXXWXXW, elucidated by MD simulations. The newly synthesized peptide has a better minimal inhibitory concentration (MIC) and much lower cytotoxicity against Candida albicans (fungus) than that of previously characterized homologous antimicrobial peptides. In a similar vein, taking the discontinued anchoring residues in the helix-helix interaction interface as the search pattern, TP-DB returns several helical peptides as potential tumor suppressors of hepatocellular carcinoma (HCC) whose helicity and binding affinity were examined by MD simulations. Taken together, we believe that TP-DB and its pattern-based search engine provide a new opportunity for a (secondary-)structure-based design of peptide drugs and diagnostic kits for pathogens without inferring evolutionary homology between sequences sharing the same pattern. TP-DB is made available at http://dyn.life.nthu.edu.tw/design/.Competing Interest StatementThe authors have declared no competing interest. ER -