Nutritional and Antioxidant Properties of Resistant Starch-Based Flour Blends from Unripe Plantain, Pigeon Pea and Rice-Bran

Asian Food Science Journal Pub Date : 2023-08-10 DOI:10.9734/afsj/2023/v22i9661

Aderonke Adenike Oladebeye, T. Fagbemi, O. Ijarotimi

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Abstract

Aim: The nutrients and antioxidants of blends of native resistant starch, acetylated resistant starch, and flours of unripe plantain, pigeon pea and rice bran were investigated as possible alternatives to functional food products in managing type-2 diabetes. Place and Duration of Study: Food Chemistry Laboratory, Department of Food Science and Technology, and Functional Foods Laboratory, Department of Biochemistry, Federal University of Technology, Akure, Nigeria. From January, 2022 to January, 2023. Methodology: Native resistant starch was isolated from plantain and was modified via acetylation. Five sample blends of native resistant starch, acetylated resistant starch, and flours of pigeon pea and rice bran were prepared, using Mixture Design Expert 11.0.0 and were coded as follows: PLF – (100% Plantain flour), used as a control sample; PLPRF – plantain flour: pigeon pea flour: rice bran flour (73.08:15.15:11.76); PSPRF – native plantain starch: pigeon pea flour: rice bran flour (73.08:15.15:11.76); AP1SPRF – acetylated plantain starch: pigeon pea flour: rice bran flour (73.08:15.15:11.76); AP2SPRF – acetylated plantain starch: pigeon pea flour: rice bran flour (70.67:18.15:11.18). The proximate compositions, minerals, amino acid profiles, α-amylase and α-glucosidase and in-vitro antioxidant potentials of the samples were compared with the commercial flour product, CRF (100% Cerolina flour: wheat and soybean produced by More Foods Lagos, Nigeria). Results: The results showed that AP2SPR had the lowest moisture content (2.40%), highest ash content (4.63%) and lowest fat content (2.42%). K, Cu, Fe. Na, Zn and P were more relatively abundant in the blends than in PLF. Generally, the chemical compositions of the flour blends improved with the addition of quality protein, which extensively enhanced the mineral contents in terms of Ca, K, Fe, Zn and P. Total essential amino acids were higher in PLF and the flour blends than CRF, ranging from 35.18 (g/100g protein) in CRF to 41.81 (g/100g protein) in PLPRF whereas their total non-essential amino acids showed an opposite trend, ranging from 58.18 (g/100g protein) in PLPRF to 64.84 (g/100g protein) in CRF. Upon acetylation, total essential amino acids improved from 39.84 (g/100g protein) in PSPRF to 41.00 (g/100g protein) in AP1SPRF and 41.32 (g/100g protein) in AP2SPRF. Both AP1SPRF and AP2SPRF were able to reduce Fe2+ to Fe3+, scavenge DPPH, FRAP and ABTS and inhibit α-amylase and α-glucosidase activities. Conclusion: The flour blends of AP1SPRF and AP2SPRF studied were a good source of resistant starch and bioactive ingredients that would be useful in a variety of dietary functional food products to manage type-2 diabetes.

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生车前草、鸽豆和米糠复合淀粉基面粉的营养和抗氧化性能

目的:研究天然抗性淀粉、乙酰化抗性淀粉与未成熟车前草、鸽豆和米糠粉的混合物的营养成分和抗氧化剂，作为治疗2型糖尿病的功能性食品的可能替代品。学习地点和时间:尼日利亚阿库雷联邦理工大学食品科学与技术系食品化学实验室和生物化学系功能食品实验室。从2022年1月到2023年1月。方法:从车前草中分离出天然抗性淀粉，经乙酰化改性。采用mix Design Expert 11.0.0，制备了5种天然抗性淀粉、乙酰化抗性淀粉与木豆米糠粉共混的样品，编码如下:PLF -(100%大蕉粉)作为对照样品;PLPRF -车前草粉:鸽豆粉:米糠粉(73.08:15.15:11.76);PSPRF -天然车前草淀粉:鸽豆粉:米糠粉(73.08:15.15:11.76);AP1SPRF -乙酰化车前草淀粉:鸽豌豆粉:米糠粉(73.08:15.15:11.76);AP2SPRF -乙酰化车前草淀粉:鸽豌豆粉:米糠粉(70.67:18.15:11.18)。将样品的近似组成、矿物质、氨基酸谱、α-淀粉酶和α-葡萄糖苷酶以及体外抗氧化能力与商品面粉CRF (100% Cerolina面粉:由尼日利亚拉各斯More Foods公司生产的小麦和大豆)进行比较。结果:AP2SPR的水分含量最低(2.40%)，灰分含量最高(4.63%)，脂肪含量最低(2.42%)。K, Cu, Fe。Na、Zn和P在共混物中比在PLF中相对丰富。总的来说，优质蛋白的添加改善了混合面粉的化学成分，广泛提高了钙、钾、铁、锌和磷等矿物质含量，混合面粉和混合面粉的必需氨基酸总量均高于普通面粉，从普通面粉的35.18 (g/100g蛋白质)到普通面粉的41.81 (g/100g蛋白质)，而非必需氨基酸总量则相反，从普通面粉的58.18 (g/100g蛋白质)到普通面粉的64.84 (g/100g蛋白质)。乙酰化后，PSPRF必需氨基酸总量从39.84 (g/100g蛋白)提高到41.00 (g/100g蛋白)，AP2SPRF提高到41.32 (g/100g蛋白)。AP1SPRF和AP2SPRF均能将Fe2+还原为Fe3+，清除DPPH、FRAP和ABTS，抑制α-淀粉酶和α-葡萄糖苷酶活性。结论:所研究的AP1SPRF和AP2SPRF混合面粉是抗性淀粉和生物活性成分的良好来源，可用于各种膳食功能食品中治疗2型糖尿病。

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Asian Food Science Journal

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