Biotechnological Effect of Fermented Mung Beans (Vigna Radiata) Flour and Its Protein Quality in Wistar Rats

Nigerian Journal of Biotechnology Pub Date : 2022-08-03 DOI:10.4314/njb.v39i1.4

R. Lawal, O. Oyegoke, M. Abiona

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Abstract

Fermentation with inclusion of organisms has been shown to improve the nutritional quality of food. This work was designed to investigate the effect of fermented mung beans (Vigina radiata) flour and protein quality in Wistar rats. The seed of V. radiata was sorted, washed, sun-dried, and later aseptically pulverized. The flour was then divided into seven portions of 500 g each and put in sterile containers. The six portions of flour were subjected to natural and induced fermentation for 4 days, using naturally occurring bacteria singly as a starter culture at 28 ±2oC, while the unfermented portion served as a control. The product of fermentation was used to determine the nutritional quality of the unfermented and fermented mung beans flour by studying the growth weight of visceral organs and body weight of rats and nitrogen retention of animals in various tissues of the internal organs, faeces and urine and protein quality of experimental animals fed. The growth weight of visceral organs and body weight of rats in the kidney (g) ranged from 17.52 ±0.62 to 23.07 ±0.78, liver (g) from 85.77 ±0.30 to 117.52 ±0.50 while muscle (g) ranged from 68.99 ±0.10 to 134.56 ±0.47. Nitrogen retention of animals fed with unfermented and fermented mung beans flour in kidney (g) 13.45 ±0.02 to 50.34 ±0.01, liver (g) 12.44 ±0.01 to 50.38 ±0.02, muscle (g) 12.89 ±0.01 to 50.55 ±0.01, faeces (g) 0.36 ±0.01 to 0.89 ±0.01 while urine 0.35 ±0.01 to 0.84 ±0.02. The protein quality of experimental animals fed in Biological Value (BV) ranged from 0.00 to 70.67 ±1.15, Net Protein Utilization (NPU) 0.00 to 76.33 ±1.53, Protein Efficiency Ratio (PER) 0.00 to 2.27 ±0.15, Net Protein Ratio (NPR) 0.00 to 3.47 ±0.11 while gained/loss ranged from -10.59 ±0.01 to 30.88 ±5.76. The fermentation increase quality of nutrient present in mung beans and fermented mung beans flour may promote the weight of internal organs of Wistar rats.

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发酵绿豆粉对Wistar大鼠的生物技术影响及其蛋白质品质

生物发酵已被证明可以改善食品的营养质量。本研究旨在探讨发酵绿豆粉对Wistar大鼠蛋白质品质的影响。将辐射弧菌种子分选，洗涤，晒干，然后无菌粉碎。然后将面粉分成7份，每份500克，放入无菌容器中。将6份面粉分别进行自然发酵和诱导发酵4 d，在28±20℃条件下，以天然细菌单独作为发酵剂，未发酵部分作为对照。发酵产物通过研究饲喂实验动物的内脏器官生长重、大鼠体重和动物内脏、粪便、尿液各组织氮潴留及蛋白质质量来确定未发酵和发酵的绿豆粉的营养品质。大鼠内脏器官生长重、肾脏体重(g)的变化范围为17.52±0.62 ~ 23.07±0.78;肝脏(g)为85.77±0.30 ~ 117.52±0.50，肌肉(g)为68.99±0.10 ~ 134.56±0.47。未发酵和发酵绿豆粉饲喂动物肾脏(g) 13.45±0.02 ~ 50.34±0.01，肝脏(g) 12.44±0.01 ~ 50.38±0.02，肌肉(g) 12.89±0.01 ~ 50.55±0.01，粪便(g) 0.36±0.01 ~ 0.89±0.01，尿液(g) 0.35±0.01 ~ 0.84±0.02。生物价值(BV)为0.00 ~ 70.67±1.15，净蛋白质利用率(NPU)为0.00 ~ 76.33±1.53，蛋白质效率(PER)为0.00 ~ 2.27±0.15，净蛋白质比(NPR)为0.00 ~ 3.47±0.11，增重比为-10.59±0.01 ~ 30.88±5.76。发酵提高了绿豆和发酵绿豆粉中营养成分的质量，可促进Wistar大鼠内脏重量的增加。

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Nigerian Journal of Biotechnology

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