Effect of Intensification of the Tricarboxylic Acid Cycle on Biosynthesis of Adipic Acid Through the Inverted Fatty Acid β-Oxidation by Escherichia coli Strains

IF 1 4区 生物学 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
A. Yu. Gulevich, A. Yu. Skorokhodova, V. G. Debabov
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引用次数: 0

Abstract

Using the previously engineered adipate-secreting Escherichia MG1655 lacIQ, ∆ackA-pta, ∆poxB, ∆ldhA, ∆adhE, PL-SDφ10-atoB, Ptrc-ideal-4-SDφ10-fadB, ∆fadE, PL-SDφ10-tesB, ∆yciA, Ptrc-ideal-4-SDφ10-fabI, PL-SDφ10-paaJ, ∆aceBAK, ∆glcB as the core strain, the derivatives capable of enhanced synthesis of the target compound from glucose via the reversed fatty acid β-oxidation pathway were obtained. The respective effect was achieved due to the intensification of the tricarboxylic acid cycle in the cells. Prevention of multiple cycle turnovers, resulting from the inactivation of succinate dehydrogenase, had no pronounced effect on the formation of adipic acid by the recombinant. Upon intensification of the cycle due to enhancing anaplerotic oxaloacetic acetic acid formation from phosphoenolpyruvate, resulting from the increased expression of the native ppc gene, the synthesis of adipic acid increased by 1.2-fold up to ~390 μM. Enabling the formation of oxaloacetate from pyruvic acid, by introducing heterologous Bacillus subtilis pyruvate carboxylase in the cells , resulted in a 1.5-fold intensification of the cycle, concomitantly with the proportional increase in adipic acid secretion to ~496 μM. Subsequent inactivation of sdhAB genes in the strain increased the secretion of the target compound only slightly, and the adipic acid titer reached ~520 μM. The obtained data indicated a direct dependence of the efficiency of adipic acid synthesis by the engineered strains on the degree of intensification of the tricarboxylic acid cycle.

强化三羧酸循环对大肠埃希菌菌株通过反式脂肪酸 β-氧化作用生物合成己二酸的影响
以先前设计的分泌脂肪的 Escherichia MG1655 lacIQ、ΔackA-pta、ΔpoxB、ΔldhA、ΔadhE、PL-SDφ10-atoB、Ptrc-ideal-4-SDφ10-fadB、ΔfadE、PL-SDφ10-tesB、ΔyciA、Ptrc-ideal-4-SDφ10-fabI、以 PL-SDφ10-paaJ、∆aceBAK、∆glcB 为核心菌株,获得了能够通过反向脂肪酸 β 氧化途径从葡萄糖中合成目标化合物的衍生物。由于细胞中的三羧酸循环加强,从而达到了相应的效果。由于琥珀酸脱氢酶失活而导致的多重循环翻转对重组体形成己二酸没有明显影响。由于原生 ppc 基因的表达量增加,使磷酸烯醇丙酮酸形成草酰乙酸的速度加快,从而加强了循环,使己二酸的合成量增加了 1.2 倍,达到约 390 μM。通过在细胞中引入异源枯草芽孢杆菌丙酮酸羧化酶(Bacillus subtilis pyruvate carboxylase),使丙酮酸生成草酰乙酸(oxaloacetate from pyruvic acid)的循环增强了 1.5 倍,同时己二酸的分泌也成比例地增加到约 496 μM。随后菌株中的 sdhAB 基因失活后,目标化合物的分泌量仅略有增加,己二酸滴度达到 ~520 μM。所得数据表明,工程菌株合成己二酸的效率直接取决于三羧酸循环的强化程度。
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来源期刊
Applied Biochemistry and Microbiology
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
75
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.
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