{Reference Type}: Journal Article
{Title}: Effect of preheating-induced denaturation of proteins and oleosomes on the structure of protein and soymilk properties.
{Author}: Huangfu J;Huang L;Gu Y;Yang S;Wu J;Liu T;Cai Y;Zhao M;Zhao Q;
{Journal}: Int J Biol Macromol
{Volume}: 268
{Issue}: 0
{Year}: 2024 May 30
{Factor}: 8.025
{DOI}: 10.1016/j.ijbiomac.2024.131999
{Abstract}: In this paper, effects of preheating-induced denaturation of proteins and oleosomes on protein structure and soymilk quality were studied. The protein in soybeans baked at 55 °C (B-55) and 85 °C (B-85) showed an increase of β-sheet content by 3.2 % and a decrease of α-helix content by 3.3 %, indicating that proteins were gradually unfolded while oleosomes remained intact. The protein resisted thermal denaturation during secondary heating, and soymilks were stable as reflected by a small d3,2 (0.4 μm). However, raw soymilk from soybeans baked at 115 °C (B-115), steamed for 1 min (ST-1) and 5 min (ST-5) presented oleosomes destruction and lipids aggregates. The proteins were coated around the oil aggregates. The β-turn content from soybeans steamed for 10 min (ST-10) increased by 9.5 %, with a dense network where the OBs were tightly wrapped, indicating the serious protein denaturation. As a result, the soymilks B-115 or steamed ones were unstable as evidenced by the serious protein aggregation and larger d3,2 (5.65-12.48 μm). Furthermore, the soymilks were graininess and the protein digestion was delayed due to the formation of insoluble protein aggregates. The flavor and early-stage lipid digestion of soymilk from steamed soybeans was improved owing to lipid release.