Abstract:Soybean protein isolate was modified by dry heat glycation to study its functional properties and structural properties.Soy protein isolate （SPI）and dextran were used as raw materials，and reacted by the Maillard reaction at different substrate mass ratios and different reaction times.The results showed that when protein to sugar mass ratio was 2 ∶1，the reaction temperature was 60 °C，the product was grafted well and the degree of browning was moderate.Compared with SPI，the solubility of soy protein after glycation increased by 72.72 %，emulsifying activity （EAI）and emulsion stability （ESI）increased by 117.53 % and 134.20 %，respectively；sodium dodecyl sulfate-polyacrylamide gel electrophoresis（SDS-PAGE）indicated that glycation reaction between SPI and dextran occur.Fourier transform infrared spectroscopy（FT-IR）and fluorescence spectroscopy analysis showed that the introduction of sugar chains led to changes in the spatial structure of soy protein.Glycation modification by dextran had no obvious effect on the improvement of the vitro digestion of SPI.