利用物理化学和酶法工艺优化和比较高效生产 D-果糖的方法

IF 1.8 3区 农林科学 Q2 AGRONOMY
Boontiwa Ninchan, Supawat Songbang, Nisit Watthanasakphuban
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引用次数: 0

摘要

D-车前子糖是越来越受关注的稀有糖类之一。目前,它已被接受用于保健食品,也是公认安全的糖类(GRAS)。目前,它已被用于许多行业,导致市场需求增加;然而,其生产工艺方面的技术进步却十分有限。因此,本研究调查了两种 D-车前子糖的生产工艺,并对条件进行了优化,以实现 D-车前子糖的高效转化。这两种工艺是(1) 以高压灭菌为基础,在不同 pH 值下使用高温的物理化学工艺;(2) 使用粗制和纯化的重组 D-木糖 3-epimerase(DPEase)的酶法。在这两种方法中,研究了不同浓度的果糖作为 D-车前子糖转化的底物。结果表明,在最佳条件下(50% w/v 的果糖溶液,反应时间为 180 分钟),粗 DPEase 转化明显产生了最高的产率和 D-车前子糖转化率,分别为 14.88% w/v 和 28.60%。DPEase 只将果糖转化为 D-车前子糖,没有检测到其他糖类作为副产品,而物理化学方法则在物理和化学特性方面产生了负面变化,如 pH 值降低、糖溶液出现不可接受的焦糖化现象,以及在高压灭菌后检测到许多糖类。所有这些结果都将为进一步研究和开发糖基底物以及提高 DPEase 酶的效率提供指导,包括在中试和工业规模上实现高效 D-果糖生产的下游技术。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Optimization and Comparative Methods for Efficient D-psicose Production Using Physicochemical and Enzymatic Processes

Optimization and Comparative Methods for Efficient D-psicose Production Using Physicochemical and Enzymatic Processes

D-psicose is one of the rare sugars that are gaining more attention. Currently, it is accepted for use in health food products and is also a safe sugar generally recognized as safe (GRAS). Now, it is used in many industries, resulting in an increased market demand; however, there has been only limited technological advancement regarding its production process. Consequently, this research investigated two processes for D-psicose production and optimizing the conditions to achieve highly efficient D-psicose conversion. Two processes were: (1) a physicochemical process using high temperature at different pH values, based on autoclaving, and (2) an enzymatic method using crude and purified recombinant D-psicose 3-epimerase (DPEase). Different fructose concentrations were studied as substrate for the D-psicose conversion in both methods. The results showed that crude DPEase conversion clearly produced the highest yield and D-psicose conversion under the best optimum conditions (50% w/v fructose solution with a reaction time of 180 min) of 14.88% w/v and 28.60%, respectively. DPEase converted fructose specifically to only D-psicose and no other sugars were detected as by-products, while the physicochemical method produced negative changes in both physical and chemical properties, such as a pH reduction and an unacceptable caramelization appearance in the sugar solution, as well many sugars being detected after autoclaving. All the results should be useful as guidelines for further research and development on sugar-based substrates and for improving the efficiency of the DPEase enzyme, including downstream technology to achieve highly efficient D-psicose production at the pilot and industrial scales.

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来源期刊
Sugar Tech
Sugar Tech AGRONOMY-
CiteScore
3.90
自引率
21.10%
发文量
145
期刊介绍: The journal Sugar Tech is planned with every aim and objectives to provide a high-profile and updated research publications, comments and reviews on the most innovative, original and rigorous development in agriculture technologies for better crop improvement and production of sugar crops (sugarcane, sugar beet, sweet sorghum, Stevia, palm sugar, etc), sugar processing, bioethanol production, bioenergy, value addition and by-products. Inter-disciplinary studies of fundamental problems on the subjects are also given high priority. Thus, in addition to its full length and short papers on original research, the journal also covers regular feature articles, reviews, comments, scientific correspondence, etc.
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