Enhancement of biochemical parameters and enzyme activity in solid-state fermented and biofortified maize cobs utilizing yeasts and plant extracts

Q1 Environmental Science Bioresource Technology Reports Pub Date : 2024-06-01 DOI:10.1016/j.biteb.2024.101874

Egoamaka O. Egbune , Olisemeke U. Egbune , Theresa Ezedom , Uche Dennis-Eboh , Linda I. Eraga , Patrick C. Ichipi-Ifukor , Osuvwe C. Orororo , Nduchukwuyenum G. Adoh , David L. Adongoi , Christabel A. Afure , Hannah R. Agbigbi , Oghenemarien Agofure , Oghenetega J. Avwioroko , Akpovwehwee A. Anigboro , Nyerhovwo J. Tonukari

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Abstract

This study investigated the impact of solid-state fermentation and biofortification of maize cobs using yeast and plant extracts on their biochemical properties and enzyme activity. Maize cobs were fermented with extracts from elephant grass, cassava leaves, or Siam weed, combined with baker's yeast or palm wine yeast. In vitro assays revealed increased l-lysine concentration (up to 8.6 mg/g), soluble protein content (up to 27.4 mg/g), total phenolic content (up to 15.5 μg GAE/g), total flavonoid content (up to 23.4 μg CE/g), and xylanase activity (up to 25.7 Units) compared to controls. Glucose concentration decreased (to 0.8 mg/mL), indicating efficient utilization. Amylase and protease activities varied, with some combinations showing higher enzymatic activity (amylase at 35.4 Units, protease at 39.2 Units). These results underscore the potential of solid-state fermentation and biofortification to enhance the nutritional quality of agro-residues, offering novel insights into sustainable food production and waste utilization strategies.

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利用酵母和植物提取物提高固态发酵和生物强化玉米棒的生化参数和酶活性

本研究调查了使用酵母和植物提取物对玉米棒进行固态发酵和生物强化对其生化特性和酶活性的影响。玉米棒用象草、木薯叶或暹罗草提取物与面包酵母或棕榈酒酵母一起发酵。与对照组相比，体外测定显示赖氨酸浓度（高达 8.6 毫克/克）、可溶性蛋白质含量（高达 27.4 毫克/克）、总酚含量（高达 15.5 微克 GAE/克）、总黄酮含量（高达 23.4 微克 CE/克）和木聚糖酶活性（高达 25.7 单位）均有所增加。葡萄糖浓度下降（降至 0.8 毫克/毫升），表明葡萄糖得到了有效利用。淀粉酶和蛋白酶的活性各不相同，一些组合显示出更高的酶活性（淀粉酶为 35.4 单位，蛋白酶为 39.2 单位）。这些结果凸显了固态发酵和生物强化提高农业残留物营养质量的潜力，为可持续食品生产和废物利用战略提供了新的见解。

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