Emerging infectious diseases (EID) are serious problems caused by fungi in humans and plant species. They are a severe threat to food security worldwide. In our current work, we have developed a support vector machine (SVM)-based model that attempts to design and predict therapeutic plant-derived antifungal peptides (PhytoAFP). The residue composition analysis shows the preference of C, G, K, R, and S amino acids. Position preference analysis shows that residues G, K, R, and A dominate the N-terminal. Similarly, residues N, S, C, and G prefer the C-terminal. Motif analysis reveals the presence of motifs like NYVF, NYVFP, YVFP, NYVFPA, and VFPA. We have developed two models using various input functions such as mono-, di-, and tripeptide composition, as well as binary, hybrid, and physiochemical properties, based on methods that are applied to the main data set. The TPC-based monopeptide composition model achieved more accuracy, 94.4%, with a Matthews correlation coefficient (MCC) of 0.89. Correspondingly, the second-best model based on dipeptides achieved an accuracy of 94.28% under the MCC 0.89 of the training dataset.

Biotechnology Division CSIR Central Institute of Medicinal and Aromatic Plants P O CIMAP Near Kukrail Picnic Spot Lucknow 226 015 Uttar Pradesh India

Department of Biomedical Engineering Faculty of Electrical Engineering and Communication Brno University of Technology Technicka 12 61600 Brno Czech Republic

Department of Physiology Faculty of Medicine Masaryk University Brno Kamenice 5 62500 Brno Czech Republic

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