Isabel S. Pedone, Isabela M. P. Narita, Miriã Miranda da Silveira, Priscila Z. Bassinello, Nathan L. Vanier, Rosana Colussi
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Phytic acid content reduced considerably at drying temperatures of 50°C and 60°C in HTC beans, and the lower content of tannin was obtained after drying at 40°C (0.45 and 0.60 mg/100 g). All quick-cooking beans had over 90% protein digestibility. The development of quick-cooking beans using a drying temperature of 40°C provided higher starch digestibility after 180 min of simulated intestinal digestion.</p>\n </section>\n \n <section>\n \n <h3> Conclusions</h3>\n \n <p>The drying process at 40°C improved the technological, physical, and nutritional characteristics of quick-cooking dehydrated beans.</p>\n </section>\n \n <section>\n \n <h3> Significance and Novelty</h3>\n \n <p>The drying temperature directly influences the final quality of quick-cooking beans; so, it is important to consider the use of low temperatures.</p>\n </section>\n </div>","PeriodicalId":9807,"journal":{"name":"Cereal Chemistry","volume":"101 4","pages":"707-719"},"PeriodicalIF":2.2000,"publicationDate":"2024-03-04","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Quick-cooking beans technology: Effects of the drying temperature on end-product quality\",\"authors\":\"Isabel S. Pedone, Isabela M. P. Narita, Miriã Miranda da Silveira, Priscila Z. Bassinello, Nathan L. Vanier, Rosana Colussi\",\"doi\":\"10.1002/cche.10773\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div>\\n \\n \\n <section>\\n \\n <h3> Background and Objectives</h3>\\n \\n <p>This study investigated different drying temperatures (40°C, 50°C, and 60°C) during the preparation of dehydrated quick-cooking beans and verified the physical and chemical effects and digestibility of the grains. Two genotypes (BRS Esteio and BRS Estilo), freshly harvested and with hard-to-cook (HTC) defects, were used.</p>\\n </section>\\n \\n <section>\\n \\n <h3> Findings</h3>\\n \\n <p>Lower drying temperature favors producing quick-cooking beans with reduced cooking times. As the temperature increases, there is an increase in grain browning. Higher temperature (60°C) promotes the most significant damage, reaching 36.35% in BRS Estilo. Phytic acid content reduced considerably at drying temperatures of 50°C and 60°C in HTC beans, and the lower content of tannin was obtained after drying at 40°C (0.45 and 0.60 mg/100 g). All quick-cooking beans had over 90% protein digestibility. 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Quick-cooking beans technology: Effects of the drying temperature on end-product quality
Background and Objectives
This study investigated different drying temperatures (40°C, 50°C, and 60°C) during the preparation of dehydrated quick-cooking beans and verified the physical and chemical effects and digestibility of the grains. Two genotypes (BRS Esteio and BRS Estilo), freshly harvested and with hard-to-cook (HTC) defects, were used.
Findings
Lower drying temperature favors producing quick-cooking beans with reduced cooking times. As the temperature increases, there is an increase in grain browning. Higher temperature (60°C) promotes the most significant damage, reaching 36.35% in BRS Estilo. Phytic acid content reduced considerably at drying temperatures of 50°C and 60°C in HTC beans, and the lower content of tannin was obtained after drying at 40°C (0.45 and 0.60 mg/100 g). All quick-cooking beans had over 90% protein digestibility. The development of quick-cooking beans using a drying temperature of 40°C provided higher starch digestibility after 180 min of simulated intestinal digestion.
Conclusions
The drying process at 40°C improved the technological, physical, and nutritional characteristics of quick-cooking dehydrated beans.
Significance and Novelty
The drying temperature directly influences the final quality of quick-cooking beans; so, it is important to consider the use of low temperatures.
期刊介绍:
Cereal Chemistry publishes high-quality papers reporting novel research and significant conceptual advances in genetics, biotechnology, composition, processing, and utilization of cereal grains (barley, maize, millet, oats, rice, rye, sorghum, triticale, and wheat), pulses (beans, lentils, peas, etc.), oilseeds, and specialty crops (amaranth, flax, quinoa, etc.). Papers advancing grain science in relation to health, nutrition, pet and animal food, and safety, along with new methodologies, instrumentation, and analysis relating to these areas are welcome, as are research notes and topical review papers.
The journal generally does not accept papers that focus on nongrain ingredients, technology of a commercial or proprietary nature, or that confirm previous research without extending knowledge. Papers that describe product development should include discussion of underlying theoretical principles.
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