Unveiling the regulatory mechanism of pulsed electric field modified instant soy milk powder: Exploring allergenicity, conformation, and epitopes

Abstract

Glycinin and β-conglycinin are prominent allergens, limiting the safety of soy and soy products in a wide range of applications. The study investigated the effects of pulsed electric field (PEF) on allergenicity, conformation, and epitopes of instant soy milk powder (ISMP) and the simulated digestion products (SDP), and to preliminarily elucidate the regulatory mechanism using multispectroscopy and peptidomics. The allergenicity of SDP and ISMP treated at 20 and 30 kV/cm were reduced and conformations were altered, especially decrease or disappearance of α-helix, enhancement of random coil, and reduction of hydrogen and disulfide bonds in SDP (P < 0.05). Furthermore, their digestion-resistant linear epitopes (DRLE) were differed, such as RSQSDN, EEEEQRQQ, and SRNPIY, therein N and P might be critical amino acids affecting their allergenicity. Overall, PEF reduced the ISPM allergenicity by altering conformations, increasing sensitivities to gastrointestinal digestive enzymes, and modulating binding sites to IgE by covering or disrupting linear epitopes.