Virtual screening, molecular docking, and molecular dynamics simulation studies on the hypoglycemic function of oat peptides

Oat contains a large amount of polysaccharides and peptides, among which oat peptides have the function of reducing blood sugar levels in the body. This paper reviewed the peptides obtained from oat extraction and identification from literature and constructed the corresponding oat peptide database. Based on the DPP4 protein, a virtual screening of the peptide database was performed. One hundred nanosecond molecular dynamics simulations were performed for the six peptides obtained from the screening. The interaction information between different peptide molecules and DPP4 was analyzed from the stable binding conformations after the simulation, and the binding free energy between different peptide molecules and DPP4 was calculated. The results show that the peptide molecules obtained from the virtual screening can all stably bind to the DPP4 protein, among which two peptide molecules have relatively strong affinity with DPP4 and can be used as lead molecules for the subsequent design and modification of DPP4 inhibitors. The simulation results are informative for a deeper understanding of the structural characteristics of DPP4 and the molecular recognition mechanism between DPP4 and oat peptides.