Effect of Different Sucrose Concentrations on the Biosynthesis of Poly(3-Hydroxybutyrate) and Alginate by the Bacterial Strain Azotobacter Vinelandii 12 under Different Aeration Conditions

IF 1 4区生物学 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Applied Biochemistry and Microbiology Pub Date : 2024-09-22 DOI:10.1134/S0003683824604876

A. A. Dudun, T. K. Makhina, A. P. Bonartsev, G. A. Bonartseva

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Abstract

Bacteria of the genus Azotobacter sp. produce two classes of biologically important biocompatible and biodegradable polymers, polyoxyalkanoates, which are the bacterial reserve, and alginates (ALG), which perform the function of protecting nitrogenase from oxygen. Both polymers are becoming increasingly important for use in bioengineering, pharmaceuticals, and medicine, so studies of their biosynthesis and properties are currently highly relevant. The present work shows the possibility of regulating alginate and poly(3-hydroxybutyrate) (PHB) synthesis by a culture of A. vinelandii 12 depending on the increase in the sucrose concentration in the medium under different aeration conditions. At high aeration and high sucrose concentrations in the medium (50 g/L), the maximum yield of free (1.08 g/L) and capsular ALG (2.26 g/L) in the medium was obtained. Under low aeration conditions, the synthesis of free ALG was completely inhibited. The maximum value of РНB synthesis was observed at medium aeration and a high concentration of sucrose (50 g/L) in the medium. The maximum molecular weight (MW) of ALG was 477 kDa, while the maximum MW of PHB was much higher, reaching 1479 kDa. At low sucrose concentrations in the medium (5 to 20 g/L), capsular ALG is predominantly synthesized (up to 100% of the sum of all polymers) at all aeration levels. With increasing sucrose concentration, PHB is predominantly synthesized (68%) under low aeration conditions, an equal ratio of PHB and capsular ALG synthesis is observed under medium aeration conditions, and free ALG is actively synthesized under high aeration conditions. This work demonstrates the possibility of obtaining a selective synthesis of ALG or PHB by A. vinelandii 12 by modifying its cultivation conditions. The results obtained can be used for the development of directed biosynthesis of target products (PHB and ALG) in biotechnology.

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不同通气条件下不同蔗糖浓度对葡萄氮杆菌 12 菌株生物合成聚（3-羟基丁酸）和藻酸盐的影响

偶氮芽孢杆菌属细菌可产生两类具有重要生物价值的生物相容性和可生物降解的聚合物，一类是作为细菌储备的聚氧烷酸盐，另一类是具有保护氮酶免受氧气侵害功能的藻酸盐（ALG）。这两种聚合物在生物工程、制药和医学领域的应用正变得越来越重要，因此对它们的生物合成和特性进行研究具有重要的现实意义。本研究表明，在不同通气条件下，培养基中蔗糖浓度的增加有可能调节醋兰藻菌 12 的藻酸盐和聚（3-羟基丁酸）（PHB）合成。在高通气和培养基中蔗糖浓度较高（50 克/升）的条件下，培养基中游离 ALG（1.08 克/升）和蒴果 ALG（2.26 克/升）的产量最大。在低通气条件下，游离 ALG 的合成被完全抑制。在中等通气度和培养基中蔗糖浓度较高（50 克/升）的条件下，РНB 的合成达到最大值。ALG 的最大分子量（MW）为 477 kDa，而 PHB 的最大分子量要高得多，达到 1479 kDa。当培养基中的蔗糖浓度较低（5 至 20 克/升）时，在所有通气水平下，主要合成的是蒴果型 ALG（达到所有聚合物总和的 100%）。随着蔗糖浓度的增加，在低通气条件下主要合成 PHB（68%），在中等通气条件下 PHB 和蒴果状 ALG 的合成比例相等，而在高通气条件下游离 ALG 的合成活跃。这项研究表明，通过改变培养条件，葡萄酵母菌 12 可以选择性地合成 ALG 或 PHB。所获得的结果可用于开发生物技术中目标产物（PHB 和 ALG）的定向生物合成。

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来源期刊

Applied Biochemistry and Microbiology 生物-生物工程与应用微生物

CiteScore

1.70

自引率

12.50%

发文量

审稿时长

6-12 weeks

期刊介绍： Applied Biochemistry and Microbiology is an international peer reviewed journal that publishes original articles on biochemistry and microbiology that have or may have practical applications. The studies include: enzymes and mechanisms of enzymatic reactions, biosynthesis of low and high molecular physiologically active compounds; the studies of their structure and properties; biogenesis and pathways of their regulation; metabolism of producers of biologically active compounds, biocatalysis in organic synthesis, applied genetics of microorganisms, applied enzymology; protein and metabolic engineering, biochemical bases of phytoimmunity, applied aspects of biochemical and immunochemical analysis; biodegradation of xenobiotics; biosensors; biomedical research (without clinical studies). Along with experimental works, the journal publishes descriptions of novel research techniques and reviews on selected topics.