Effect of protatranes on the biosynthesis of extracellular enzymes of Candida ethanolica BKM Y-2300 T

A. S. Kiryukhina, T. S. Lozovaya, S. N. Adamovich
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Abstract

The study aims to explore the possibility of using synthetic biologically active compounds (protatranes) to increase the lipolytic and proteolytic activity of Candida ethanolica. Protatrane 1 (tris(2-hydroxyethyl) ammonium-4chlorophenyl-sulfanyl acetate) and protatrane 2 (tris(2-hydroxyethyl) ammonium-4-chlorophenyl-sulfonyl acetate) were added to the growth medium at trace concentrations of 1×10−6–1×10−8wt% separately and together. It was established that with the introduction to the growth medium, protatranes had a multidirectional effect on the biosynthesis of enzymes by Candida ethanolica yeast. This effect was dependent on the concentrations of these compounds, as well as on their separate or combined introduction. All the studied concentrations were found to be effective for lipase synthesis, as they improved enzyme synthesis by 1.7–8.6 times. The combined use of protatranes increased enzyme synthesis by 3.4–11.7 times. For protease formation, the combined introduction of the studied protatranes at a concentration of 10−6wt% was found to be the most effective, with enzyme synthesis reaching 184.8±7.02 U/mL in the culture broth. When co-introduced, the studied protatranes tris(2-hydroxyethyl) ammonium-4-chlorophenylsulfanyl acetate and tris(2-hydroxyethyl) ammonium-4-chlorophenyl-sulfonyl acetate can be used to increase the production efficiency of extracellular lipases and proteases by Candida ethanolica. The specific effect of protatranes was revealed to be the uneven dynamics of extracellular enzyme accumulation, manifested in the presence of sharp peaks during yeast cultivation. The reasons for this unevenness require further research.
原烷对乙醇念珠菌 BKM Y-2300 T 细胞外酶生物合成的影响
本研究旨在探索利用合成生物活性化合物(原鹤草)提高乙醇念珠菌脂肪分解和蛋白分解活性的可能性。在生长培养基中分别和同时加入微量浓度为 1×10-6-1×10-8wt% 的原烷 1(三(2-羟乙基)铵-4-氯苯基硫酰乙酸酯)和原烷 2(三(2-羟乙基)铵-4-氯苯基硫酰乙酸酯)。结果表明,在生长培养基中加入原烷后,原烷对乙醇念珠菌酶的生物合成具有多向影响。这种影响取决于这些化合物的浓度,以及它们的单独或联合引入。研究发现,所有浓度的化合物都能有效促进脂肪酶的合成,因为它们能将酶的合成提高 1.7-8.6 倍。联合使用原烷可使酶的合成增加 3.4-11.7 倍。在蛋白酶的形成方面,以 10-6wt% 的浓度联合引入所研究的原膜是最有效的,在培养液中酶的合成量达到 184.8±7.02 U/mL。所研究的三(2-羟乙基)铵-4-氯苯基磺酰乙酸酯和三(2-羟乙基)铵-4-氯苯基磺酰乙酸酯原药共同加入后,可用于提高乙醇念珠菌胞外脂肪酶和蛋白酶的生产效率。研究发现,protatranes 的特殊效果是细胞外酶积累的动态不平衡,表现为酵母培养过程中出现尖峰。造成这种不均衡的原因需要进一步研究。
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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