LAUSR

Abstract To understand the mechanisms of buckwheat digestion, in vitro and in vivo digestibility of buckwheat flour (BF), buckwheat starch (BS), defatted buckwheat flour (DFBF), and deproteinized buckwheat flour (DPBF) were investigated. The results showed that fat and protein could inhibit the digestion of BS. The resistant starch content of DFBF was decreased from 4.21% to 0.83%, and slowly digestible starch content was increased from 0.66% to 8.16%, compared with BF. The in vivo digestibility results showed that DFBF or DPBF has a shorter glucose release time and higher hepatic glycogen content than BF. Scanning electron microscopy and thermodynamic properties analyses were combined to study the interaction of starch, fat, and protein of buckwheat. These results indicated that proteins could wrap around the starch granules and limit the enzymolysis of starch. Fat-starch complex limited starch hydrolysis. This study could give good guidance for making new health care products.