Alkaline protease digestion with a food-grade enzyme was used to produce ri
ce starch from wet-milled rice flour (WMRF). In a 3 x 3 factorial modelling
experiment, recoveries of starch and levels of protein contamination were
determined at pH 8.5-10.0, protease levels of 0.5-1.5% (based on WMRF), and
digestion times of 5.0-30.0 h. The following digestion conditions were kep
t constant; 55 degrees C with mild agitation, 34-37% (w/v) flour solids, an
d alkalinity to within +/-2 pH units. Regression equations with the three v
ariables explained 92% and 98%, respectively, of the variances in starch re
covery and protein contamination. Upon digestion with 1.1% protease at pH 1
0.0 and 18.0 h, starch recovery was 95% and protein contamination was 0.5%.
Most hydrolysis of rice protein occurred in the first 3-4h of digestion as
determined by the consumption of sodium hydroxide (NaOH). Rice starch also
was isolated by extraction of WMRF with c. 2.5 parts of 0.05 Ir NaOH at c.
pH 12. The recovery of starch was c. 10% higher with the protease method t
han with the NaOH method, and the effluents contained mostly amino acid sal
ts as opposed to protein mixed with alkali. The rice starch isolated by pro
tease digestion was lighter in appearance, contained more lipid; and gave a
somewhat lower consistency after pasting. The raw materials used to isolat
e rice starch by the protease method were approximately twice as costly in
1996 as those in the NaOH method, principally because of the cost of the pr
otease (55% of total). (C) 2000 Academic Press.