Optimization of the ellagic acid synthesis process at the bioreactor level using non-conventional yeasts

IF 0.6 4区医学 Q4 PHARMACOLOGY & PHARMACY

Brazilian Journal of Pharmaceutical Sciences Pub Date : 2023-05-08 DOI:10.1590/s2175-97902023e21508

Rafael Madrigal-Chávez, Kristal Ruíz-Pompa, Anahí Márquez-López, Dora Cecilia Valencia Flores, M. C. CHÁVEZ-PARGA, J. González-Hernández

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引用次数: 0

Abstract

Ellagic acid (EA) is a phenolic biomolecule. For its biosynthesis, a source of ellagitannins is required, such as strawberries and yeasts, as precursors of the tannase and β-glucosidase enzymes responsible for hydrolysis of ellagitannins. Two experimental mixture designs were applied., varying the yeast concentration and the number of ellagitannins in the culture medium, evaluating the enzymatic activity and ellagic acid biosynthesis. Aiming to find the optimal compositions of the non-conventional yeasts assessed in the research to biosynthesize ellagic acid feasibly and efficiently using a response surface performing the statistical analysis in the StatGraphics® program for obtaining a higher yield and optimizing the ellagic acid synthesis process, the results indicate that the strains Candida parapsilosis ITM LB33 and Debaryomyces hansenii ISA 1510 have a positive effect on the synthesis of ellagic acid, since as its concentration increases in the mixture the concentration of ellagic acid in the medium also increases; on the other hand, the addition of Candida utilis ITM LB02 causes a negative effect, resulting in the compositions of 0.516876, 0.483124 and 2.58687E -9 respectively, for a treatment under the same conditions, an optimal value of ellagic acid production would be obtained. With an approximate value of 7.33036 mg/mL.

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利用非常规酵母在生物反应器水平上优化鞣花酸合成工艺

鞣花酸是一种酚类生物分子。其生物合成需要鞣花单宁的来源，如草莓和酵母，作为负责鞣花单宁水解的单宁酶和β-葡萄糖苷酶的前体。采用了两种混合试验设计。在培养基中改变酵母浓度和鞣花单宁的数量，评价酶活性和鞣花酸的生物合成。为了在StatGraphics®程序中利用响应面进行统计分析，以获得更高的产量并优化鞣花酸的合成工艺，寻找本研究中评估的非常规酵母的最优组合，结果表明，菌株假丝酵母(Candida parapsilosis) ITM LB33和Debaryomyces hansenii ISA 1510对鞣花酸的合成有积极的影响。由于鞣花酸在混合物中的浓度增加，培养基中的浓度也随之增加;另一方面，利用念珠菌ITM LB02的添加对鞣花酸产生负作用，其组成分别为0.516876、0.483124和2.58687E -9，在相同的处理条件下，鞣花酸产量达到最佳值。近似值为7.33036 mg/mL。

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来源期刊

Brazilian Journal of Pharmaceutical Sciences PHARMACOLOGY & PHARMACY-

CiteScore

1.40

自引率

0.00%

发文量

165

审稿时长

7.5 months

期刊介绍： The Brazilian Journal of Pharmaceutical Sciences accepts for publication Original Papers applicable to the fields of Pharmaceutical Sciences; Reviews and Current Comment Articles, which are published under the Scientific Editor and Associate Editors invitation to recognized experts or when they are spontaneously submitted by the authors in the form of abstracts to have their importance evaluated. A critical view of the subject with insertions of results of previous works in the field in relation to the state of art must be included; Short Communications reporting new methods and previews of works on researches of outstanding importance in which originality justify a quick publication. A maximum of 2000 words excluding tables, figures and references is an acceptable limit. One table, one figure and ten references may be added, and Book Reviews of the latest editions of books, prepared by specialists invited by the Scientific Editor and Associate Editors. Thematic Supplements as well as those related to scientific meetings can be published under the Scientific Editor and/or Associate Editors agreement.