连续流动毫升反应器中乙酰化动力学的新见解,用于水飞蓟宾 A/B 的化学酶法分离

IF 2 4区 化学 Q3 CHEMISTRY, MULTIDISCIPLINARY Journal of Flow Chemistry Pub Date : 2024-07-22 DOI:10.1007/s41981-024-00329-w
Michele Emanuele Fortunato, Rita Pagano, Valeria Romanucci, Chiara Licenziato, Armando Zarrelli, Martino Di Serio, Giovanni Di Fabio, Vincenzo Russo
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引用次数: 0

摘要

由于水飞蓟宾 A(SilA)和 B(SilB)非对映异构体的物理和化学性质非常相似,因此在光学纯化合物中分离这两种非对映异构体具有挑战性。然而,这种分离对于评估水飞蓟宾 A 和水飞蓟宾 B 非对映异构体的生物活性至关重要,因为这两种非对映异构体在治疗前列腺癌、肝病和阿尔茨海默病等药理应用中表现出截然不同的性能。最常见的分离方法是基于高效液相色谱法,但这种方法很慢,而且每天的纯 SilB 产量只有几百毫克。另一种化学酶分离方法是利用固定化脂肪酶 CALB 催化剂立体选择性地乙酰化水飞蓟宾 B (1b),这种方法在更高的生产率、选择性和可扩展性方面具有优势,尤其是在流动反应器中应用时。本研究深入探讨了 Novozym 435 在连续流动毫升反应器中催化水飞蓟宾乙酰化的动力学过程,并在不同温度、容积流速和水飞蓟宾初始浓度下进行了研究。值得注意的是,在目前的技术水平下,还缺乏对这一反应的动力学研究,这突出了这项工作的新颖性和重要性。通过对实验数据进行非线性回归分析,估算了动力学和流体动力学参数。所研究的反应显示了无效的表观活化能,这解释了乙酰化水飞蓟宾 B (1b) 最终浓度对温度的不敏感性。此外,乙酰化产物的稳态浓度随着体积流量的增加而降低,这表明反应是在动力学条件下进行的。有趣的是,已确定了一个最大起始硅浓度,超过该浓度对转化率没有任何有利影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Novel insights into acetylation kinetics in a continuous Flow milli-reactor for chemo-enzymatic separation of silybin A/B

The separation of silybin A (SilA) and B (SilB) diastereomers in optically pure compounds is challenging due to their very similar physical and chemical properties. However, such separation is crucial for evaluating the biological activity of the diasteroisomers SilA and SilB, which show very different performance in pharmacological applications like treating prostate cancer, liver diseases, and Alzheimer’s disease. The most common isolation method is based on high-performance liquid chromatography, but it is slow and has a yield in pure SilB of hundreds of milligrams per day. An alternative chemo-enzymatic separation method, utilizing an immobilized lipase CALB catalyst to stereoselectively acetylate silybin B (1b), offers advantages in terms of higher productivity, selectivity, and scalability, particularly when applied in flow reactors. This study delves into the kinetics of Sil acetylation catalyzed by Novozym 435 in a continuous flow milli-reactor, investigated at various temperatures, volumetric flow rates, and Sil initial concentrations. It is noteworthy that, at the current state of the art, there is a lack of kinetic studies on this reaction, emphasizing the novelty and significance of this work. The kinetic and fluid dynamic parameters were estimated using a non-linear regression analysis of experimental data. The examined reaction showed a null apparent activation energy, explaining the temperature insensitivity of the final acetylated silybin B (1b) concentration. Furthermore, the decrease in steady-state concentrations of the acetylated products with increasing volumetric flow rates indicated that the reaction was occurring in a kinetic regime. Interestingly, a maximum starting Sil concentration was identified, above which there was no favorable impact on conversion.

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来源期刊
Journal of Flow Chemistry
Journal of Flow Chemistry CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
6.40
自引率
3.70%
发文量
29
审稿时长
>12 weeks
期刊介绍: The main focus of the journal is flow chemistry in inorganic, organic, analytical and process chemistry in the academic research as well as in applied research and development in the pharmaceutical, agrochemical, fine-chemical, petro- chemical, fragrance industry.
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