Effects of germination conditions on enzyme activities and starch hydrolysis of long‐grain brown rice in relation to flour properties and bread qualities

Gluten‐free products from rice are gaining popularity because of its hypoallergenic characteristic. The absence of gluten results in inferior bread qualities such as hard texture, reduced volume, and shorter shelf‐life. Hydrolytic enzymes are activated during germination to stimulate plant growth, a...

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Veröffentlicht in:Journal of food science 2020-02, Vol.85 (2), p.349-357
Hauptverfasser: Wunthunyarat, Wipada, Seo, Han‐Seok, Wang, Ya‐Jane
Format: Artikel
Sprache:eng
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Zusammenfassung:Gluten‐free products from rice are gaining popularity because of its hypoallergenic characteristic. The absence of gluten results in inferior bread qualities such as hard texture, reduced volume, and shorter shelf‐life. Hydrolytic enzymes are activated during germination to stimulate plant growth, and germinated brown rice (GBR) has been shown to improve gluten‐free bread properties. However, the changes in hydrolytic enzyme activities under different germination conditions and their relationship with the properties of germinated rice flour and bread have not been reported. Therefore, the objectives of this work were to investigate the activities of amylases and protease in GBR under aerobic and anaerobic germination for 2 and 4 days and their impacts on starch hydrolysis, flour properties, and bread qualities. Greater enzyme activities were observed in GBR germinated under aerobic condition and a longer time, and correlated with increased sugar content and foaming capacity. Breads were prepared from GBR along with brown rice (control). GBR breads showed a greater specific volume (4% to 10%), a reduced hardness (34% to 90%), and a lower starch retrogradation (66% to 90%) compared with the control. Bread prepared from 4‐day aerobic GBR had the largest reduction in starch molecular size and displayed the lowest hardness and starch retrogradation. After stored for 5 days, GBR breads exhibited no change in specific volume and less hardness and retrogradation than the control bread. In conclusion, greater activities of protease and amylases in GBR significantly increased foaming capacity and reduced starch molecule size, respectively, which were responsible for the improved GBR bread qualities. Practical Application Rice flour is widely used as the main ingredient in gluten‐free breads, which however tend to have poor texture and reduced shelf‐life due to the absence of gluten. The qualities of gluten‐free breads are usually improved by the addition of many ingredients such as tapioca and potato starches. Germination process naturally produces bioactive compounds and activates enzymes. Germination conditions that produce greater activities of amylases and protease can be used to produce gluten‐free breads with better qualities and longer shelf‐life without the addition of starch.
ISSN:0022-1147
1750-3841
DOI:10.1111/1750-3841.15008