Enzymatic extraction improves functional and phytochemical attributes of rice protein from green and ripe grains.
Tarathep Siripan, Apichaya Bunyatratchata, Pornpisanu Thammapat, Chuleeporn Bungthong, Hua Li, Sirithon Siriamornpun
Abstract
Open AccessRice protein, a hypoallergenic and nutritionally balanced plant-based source, was extracted from fully ripe (RR) and green (GR) Khao Dawk Mali 105 rice grains using α-amylase (AA), protease (PT), and their sequential combinations (AA-PT, PT-AA). The GR-PT extract exhibited the highest protein content (11.2 %) compared to RR-control (4.0 %) and GR-control (4.8 %). PT treatment enhanced water-holding capacity (1.7 g/g), while AA-PT improved oil-holding capacity (3.2 g/g) and foam stability (57.5 %). FTIR spectra revealed amide I II and III bands (1650-1240 cm-1), confirming preserved secondary structures after enzymatic extraction. PT-AA samples showed the highest antioxidant activities (DPPH: 92.7 mg AA/100 g DW; FRAP: 4.08 mg FeSO4/100 g DW). LC-MS/MS profiling indicated a fourfold increase in arginine in GR-PT-AA. Overall, GR-PT and GR-PT-AA extracts demonstrate superior functional and antioxidant properties, highlighting their potential as antioxidant-rich plant protein ingredients.