Formation,characterization, and glucose response in mice to rice starch with low digestibility produced by citric acid treatment |
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Authors: | Sang Ick Shin Chang Joo Lee Dae-Ik Kim Hyun Ah Lee Jong-Joo Cheong Koo Min Chung Moo-Yeol Baik Cheon Seok Park Chung Ho Kim Tae Wha Moon |
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Affiliation: | 1. School of Agricultural Biotechnology and Center for Agricultural Biomaterials, Seoul National University, Seoul 151-742, Korea;2. DG-Traditional Bio-Material Industry Center, Daegu 704-230, Korea;3. School of Bioresource, College of Natural Science, Andong National University, Andong, Kyungbuk 760-749, Korea;4. Department of Food Science and Biotechnology, Kyung Hee University, Seochun 1, Yongin, Gyeonggi 449-701, Korea;5. Department of Food and Nutrition, Seowon University, Cheongju, Chungbuk 361-742, Korea |
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Abstract: | The optimum conditions for producing rice starch enriched in slowly digestible and resistant fractions by citric acid treatment determined by a response surface methodology (RSM) model equation, were: reaction temperature, 128.4 °C; reaction time, 13.8 h; and citric acid, 2.62 mmol/20 g starch. The slowly digestible and resistant starch fractions of the optimally acid-treated rice starch totalled 54.1%, which was 28.1% higher than the control. The slowly digestible and resistant fractions of the acid-treated rice starch did not differ significantly after heat treatment, whereas those of raw rice starch decreased by 49.6–63.8%, depending on the type of heat treatment (cooking at 100 °C or autoclaving). The slowly digestible fraction of the acid-treated starch increased by 8.9–14.2%. After autoclaving, the glucose response of the acid-treated starch was lower than untreated starch, but similar to that of Novelose 330. After heat treatment, the rate of blood glucose decrease was slower for the acid-treated starch than for Novelose 330. Compared to raw rice starch, the acid-treated starch exhibited increases in apparent amylose content, blue value, dextrose equivalent, cold-water solubility and transmittance, and decreases in wavelength of maximum absorbance, viscosity, and gel-forming ability. |
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Keywords: | Acid-treated rice starch Resistant starch Slowly digestible starch |
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