In Silico Analysis of Individual Fractions of Bovine Casein as Precursors of Bioactive Peptides—Influence of Post-Translational Modifications

Abstract

Bovine casein is one of the most known precursors of bioactive peptides among food proteins. Thus far, in silico investigations addressing casein have taken no account of the impact of modifications of amino acid residues on the feasibility of bioactive peptide release. The present study aimed to determine the effect of such modification on the possibility of release of bioactive peptides from casein during simulated digestion. The αs1-, αs2-, β-, and κ-casein sequences were deposited in the BIOPEP-UWM protein database considering phosphorylated amino acids, cysteine residues forming disulfide bridges, and pyroglutamic acid residues. The frequency of occurrence of bioactive fragments and the frequency of their release by digestive enzymes were determined for the analyzed modified and unmodified proteins. Peptides found exclusively in the sequences of unmodified proteins were deemed as false-positive results. From 1.74% (β-casein A2) to 4.41% (αs2-casein B and D) of the false-positive results were obtained for the total frequency of occurrence of bioactive fragments (sums of frequencies computed for all activities). In turn, from 1.78% (κ-casein B) to 9.18% (β-casein A2 and A3) of false-positive results were obtained for the predicted total frequency of release of bioactive peptides by the system of digestive enzymes (pepsin, trypsin, and chymotrypsin).