Effect of malting and roasting of chickpea on functional and nutritional qualities of its protein fractions

Abstract

SummaryChickpea is gaining importance as a sustainable plant‐based protein source due to its high protein content and protein bioavailability. Malting and roasting, the traditional processing techniques, can be used to improve the protein quality of chickpea. The effect of two processing techniques on the water‐soluble albumin fraction, salt‐soluble globulin fraction, alcohol‐soluble prolamin fraction, and alkali‐soluble glutelin fraction was studied. Globulin content decreased from 45.85% to 37.08%, whereas the albumin fraction was found to increase from 4.16% to 7.08%, after 6 days of germination. It was observed that malting and roasting resulted in significant changes in the protein quality parameters and decrease in anti‐nutritional factors. Tannin content reduced by 53.18% and 40.44%, and the trypsin inhibitor activity reduced by 14.91% and 34.59% after malting and roasting, respectively. The protein efficiency ratio, biological value, and nutritional index improved due to malting and roasting. The biological value of raw chickpea protein was found to be 74.97%, and it increased to 81.89% and 79.27% on malting and roasting, respectively, and protein digestibility values were also increased. Microstructural and diffraction patterns of chickpea flours were examined. Amino acid scores for infants and adults were calculated, and sulphur‐containing amino acids were found to be the limiting amino acids in chickpea.