坦桑尼亚南部高地竹饮料中糖、氨基酸、pH和酒精的测定

L. Kaale
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摘要

糖和氨基酸的含量在确定发酵过程和定量饮料中的酒精含量方面起着重要作用,而pH值影响酒精饮料的生物稳定性、颜色、氧化率和蛋白质稳定性。本研究调查了坦桑尼亚南部高地竹饮料的糖含量、氨基酸、酒精含量和pH值。在存储过程中,糖明显减少(p < 0.05),特别是当室温保存从52.96到0.00(1)来源,53.35到0.00(2)来源和53.57到0.00(3)来源g / L的果糖,从47.93到14.78(1)来源,47.23到14.91(2)来源和47.61到14.77(3)来源对葡萄糖g / L,从0.40到0.00(1)来源,0.36到0.00(2)来源和0.37到0.00(3)来源g / L蔗糖经过六天的存储。竹饮料中共检出15种氨基酸,其中以酪氨酸含量最高(来源1为597.68 mg/L,来源2为599.44 mg/L,来源3为597.83 mg/L),其次为缬氨酸(来源1为261.13 mg/L,来源2为261.24 mg/L,来源3为262.54 mg/L),苏氨酸(来源1为76.69 mg/L,来源2为76.91 mg/L,来源3为77.13 mg/L),丝氨酸(来源1为66.37 mg/L)。源2为67.23 mg/L,源3为66.68 mg/L)。室温保存6天后,pH值从4.04显著降低到3.63。室温贮藏时酒精含量为3.11 ~ 9.05% v/v。由于缺乏氨基酸和糖含量等科学信息,这些结果可能有助于竹饮料的最佳利用。关键词:竹饮料,乌兰子,氨基酸,糖,酒精含量
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Determination of Sugars, Amino Acids, pH and Alcohol in Bamboo Beverage from Southern Highlands, Tanzania
The amounts of sugars and amino acids play significant roles in defining the fermentation process and quantifying the alcohol levels in beverages, while pH affects the biological stability, colour, oxidation rate, and protein stability of alcoholic beverages. This study investigated the sugar content, amino acids, alcohol levels, and pH of bamboo beverage from Tanzania's southern highlands. During storage, the sugars significantly decreased (p < 0.05), especially when kept at room temperature from 52.96 to 0.00 (source 1), 53.35 to 0.00 (source 2) and 53.57 to 0.00 (source 3) g/L for fructose, from 47.93 to 14.78 (source 1), 47.23 to 14.91 (source 2) and 47.61 to 14.77 (source 3) g/L for glucose, and from 0.40 to 0.00 (source 1), 0.36 to 0.00 (source 2) and 0.37 to 0.00 (source 3) g/L for sucrose after six days of storage. A total of 15 amino acids were determined from the bamboo beverage with tyrosine being the most prevalent (597.68 mg/L for source 1, 599.44 mg/L for source 2 and 597.83 mg/L for source 3), followed by valine (261.13 mg/L for source 1, 261.24 mg/L for source 2 and 262.54 mg/L for source 3), threonine (76.69 mg/L for source 1, 76.91 mg/L for source 2 and 77.13 mg/L for source 3), and serine (66.37 mg/L for source 1, 67.23 mg/L for source 2 and 66.68 mg/L for source 3). After six days of storage at room temperature, there was a significant decrease in pH from 4.04 to 3.63. Alcohol content ranged from 3.11 to 9.05% v/v at the room temperature storage. These results might facilitate the optimal use of bamboo beverages, which have been neglected due to lack of scientific information such as amino acid and sugar levels. Keywords:  Bamboo beverage, ulanzi, amino acids, sugars, alcohol content
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