Improving phenolic bioactive-linked functional qualities of traditional cereal-based fermented food (Ogi) of Nigeria using compatible food synergies with underutilized edible plants

IF 4.1 Q2 FOOD SCIENCE & TECHNOLOGY
Kolawole Banwo , Aduragbemi Oyeyipo , Lokesh Mishra , Dipayan Sarkar , Kalidas Shetty
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引用次数: 5

Abstract

Traditional fermented foods with unique nutritional profiles are affordable and accessible dietary sources that support basic nutritional needs of many communities around the world. Ogi is a fermented combined cereal (Maize/Sorghum/other Millets) -based food of Nigeria and Sub-Saharan Africa, widely used as breakfast food for adults and weaning food for infants. However, during Ogi processing from cereal grains into slurries, significant losses of essential nutrients occurs, which affect overall nutritional quality. Therefore, improving specific health-targeted functional qualities of Ogi using novel food synergies with local plant based edible sources that are rich in essential nutrients and other health protective bioactives have significant dietary and health relevance. In this study, locally grown underutilized edible plants, like tigernut (Cyperus esculentus) and sesame (Sesamum indicum L.) seeds in different proportions (20 and 30 g) were separately synergized into maize and sorghum (80 and 70 g) and these food synergies were allowed to ferment spontaneously for 48 h. Physiochemical properties, proximate composition, and microbial population count of fermented food synergies were investigated at 0, 24, and 48 h time points. Additionally, total soluble phenolic content, phenolic profile, antioxidant activity, and anti-hyperglycemic property relevant α-glucosidase enzyme inhibitory activity of dried fermented food synergies were determined using rapid in vitro assay models. Food synergy with sesame seeds and natural fermentation resulted in improvement of crude protein, fat, and vitamin C content in both maize and sorghum based Ogi. Furthermore, higher soluble phenolic content and high antioxidant activity were observed in food synergies with sesame seeds and specifically after 24 h of fermentation. High anti-hyperglycemic property relevant α-glucosidase enzyme inhibitory activity was also observed in fermented sorghum synergized with sesame seeds and tigernut. Therefore, integration of food synergy into traditional fermentation process is an effective bioprocessing strategy to improve overall nutritional profile and human health protective functional qualities in cereal-based fermented foods like Ogi targeting dietary and health benefits of wider communities.

利用与未充分利用的可食用植物相容的食品协同效应,改善尼日利亚传统谷物发酵食品(Ogi)的酚类生物活性相关功能品质
具有独特营养成分的传统发酵食品是负担得起的、可获得的膳食来源,可满足世界各地许多社区的基本营养需求。Ogi是尼日利亚和撒哈拉以南非洲的一种以发酵谷物(玉米/高粱/其他小米)为基础的食品,广泛用于成人早餐和婴儿断奶食品。然而,在Ogi从谷物加工成浆料的过程中,必需营养素会发生重大损失,从而影响整体营养质量。因此,利用与富含必需营养素和其他健康保护生物活性的当地植物性食用来源的新型食品协同作用来改善Ogi的特定健康功能品质具有重要的饮食和健康相关性。在本研究中,将当地种植的未充分利用的可食用植物,如虎坚果(Cyperus esculentus)和芝麻(Sesamum indicum L.)种子按不同比例(20和30 g)分别协同到玉米和高粱(80和70 g)中,并让这些食物协同作用自发发酵48 h。在0、24和48 h时间点研究发酵食品协同作用的理化性质、大致组成和微生物种群计数。此外,采用体外快速测定模型,测定了干燥发酵食品的总可溶性酚含量、酚谱、抗氧化活性和抗高血糖特性相关的α-葡萄糖苷酶抑制活性。与芝麻和自然发酵的食物协同作用提高了玉米和高粱Ogi的粗蛋白质、脂肪和维生素C含量。此外,发酵24 h后,与芝麻的食物增效作用中可溶性酚含量较高,抗氧化活性也较高。发酵高粱与芝麻、板栗协同发酵,具有较高的抗高血糖性能,且具有相应的α-葡萄糖苷酶抑制活性。因此,将食品协同作用整合到传统的发酵过程中是一种有效的生物加工策略,可以改善Ogi等谷物发酵食品的整体营养状况和人体健康保护功能质量,从而使更广泛的社区获得饮食和健康益处。
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来源期刊
NFS Journal
NFS Journal Agricultural and Biological Sciences-Food Science
CiteScore
11.10
自引率
0.00%
发文量
18
审稿时长
29 days
期刊介绍: The NFS Journal publishes high-quality original research articles and methods papers presenting cutting-edge scientific advances as well as review articles on current topics in all areas of nutrition and food science. The journal particularly invites submission of articles that deal with subjects on the interface of nutrition and food research and thus connect both disciplines. The journal offers a new form of submission Registered Reports (see below). NFS Journal is a forum for research in the following areas: • Understanding the role of dietary factors (macronutrients and micronutrients, phytochemicals, bioactive lipids and peptides etc.) in disease prevention and maintenance of optimum health • Prevention of diet- and age-related pathologies by nutritional approaches • Advances in food technology and food formulation (e.g. novel strategies to reduce salt, sugar, or trans-fat contents etc.) • Nutrition and food genomics, transcriptomics, proteomics, and metabolomics • Identification and characterization of food components • Dietary sources and intake of nutrients and bioactive compounds • Food authentication and quality • Nanotechnology in nutritional and food sciences • (Bio-) Functional properties of foods • Development and validation of novel analytical and research methods • Age- and gender-differences in biological activities and the bioavailability of vitamins, minerals, and phytochemicals and other dietary factors • Food safety and toxicology • Food and nutrition security • Sustainability of food production
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