Abstract:This experimental study investigated the effects of grafting and carboxymethylation on the chemical composition，microstructure，and physicochemical properties of millet bran dietary fiber.The results showed that grafting and carboxymethylation modifications can increase the content of soluble dietary fiber，specific surface area，water-holding capacity，oil-holding capacity，cation exchange capacity，and expansion of millet bran dietary fiber.After carboxymethylation and grafting modifications，the content of soluble dietary fiber in millet bran dietary fiber increased by about 7 times and 11 times，water-holding capacity increased from 1.12 g/g to 2.69 g/g and 2.29 g/g，and oil-holding capacity increased from 2.19 g/g to 4.59 g/g and 4.27 g/g，respectively.At the same time，after grafting and carboxymethylation，the cation exchange capacity of millet bran dietary fiber increased by 5.34 times and 0.75 times，respectively.In addition，compared with unmodified millet bran dietary fiber，the modified millet bran dietary fiber had a darker color，smaller particle size，larger specific surface area，and exhibited a honeycomb-like and porous microstructure.