Abstract
Peptide therapeutics is proven to be highly potential in the treatment of various diseases due to its specificity, biological safety, and cost-effectiveness. Many of the FDA-approved peptides are currently available for therapeutic applications. In the current postgenomic era, high-throughput computational screening of drugs and peptides are highly exploited in peptide therapeutics for cost-effective and robustness. However, there is a paucity of efficient pipelines that automate virtual screening process of peptides through integration of open-source tools that are optimal to perform ensemble and flexible docking protocols. Hence, in this study, we developed a GUI-based pipeline named PepVis for automated script generation for large-scale peptide modeling and virtual screening. PepVis integrates Modpep and Gromacs for peptide structure modeling and optimization; AutoDock Vina, ZDOCK, and AutoDock CrankPep for virtual screening of peptides; ZRANK2 for rescoring of protein-peptide complexes, and FlexPepDock for flexible refinement of protein-peptide complexes. Benchmarking of ensemble docking through PepVis infers that ModPep+Vina to outperform ModPep+ZDock in terms of detecting near-natives from LEADS-PEP dataset. PepVis is built modular to incorporate many other docking algorithms in the future. This pipeline is distributed freely under the GNU GPL license and can be downloaded at https://github.com/inpacdb/PepVis.
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