Screening and characterization of a novel antifreeze peptide from silver carp muscle hydrolysate

This study aimed to screen and characterize antifreeze peptides from silver carp muscle hydrolysate (SCMH). The SCMH was initially fractionated by ultrafiltration, and the resultant SCMH-IV (<10 kDa) showing 90 % of yeast survival rate was subsequently separated into four fractions using ion-exchange chromatography. The fraction with the best antifreeze activity was further analyzed by liquid chromatography-tandem mass spectrometry. A total of 514 peptides were identified, of which a novel antifreeze peptide (Sc-AFP, KAADSFNHKAFFAKVG) with a thermal hysteresis activity of 0.87 ℃ was selected. The parvalbumin-derived Sc-AFP showed an alanine-rich, α-helical and amphipathic character. Based on molecular dynamics simulations, the Sc-AFP could interact with 48 water molecules via hydrogen bonds, and could be adsorbed onto the ice surface through a total of 21 hydrogen bonds mainly linked to the lysine residues. This could account for its antifreeze properties via preventing the formation and growth of ice crystals.