Improved biosynthesis of tyrosol by epigenetic modification-based regulation and metabolic engineering in Saccharomyces cerevisiae.

IF 4.1 2区生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Journal of biotechnology Pub Date : 2024-12-31 DOI:10.1016/j.jbiotec.2024.12.013

Guoli Wang, Xiqin Liang, Zhenke Wu, Bengui Fan, Jun Wang, Qiusheng Zheng, Defang Li, Tianyue An

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引用次数: 0

Abstract

Aromatic amino acids and their derivatives are high value chemicals widely used in food, pharmaceutical and feed industries. Current preparation methods for aromatic amino acid products are fraught with limitations. In this study, the efficient biosynthesis of aromatic amino acid compound tyrosol was investigated by epigenetic modification-based regulation and optimization of the biosynthetic pathway of aromatic amino acids. The production of tyrosol was significantly improved by the overexpression of m⁶A modification writer Ime4 and reader Pho92, and the positive regulator Gcr2. Introduction of Bbxfpk and deletion of Gpp1 further improved tyrosol production. Then the feedback inhibition of the shikimate pathway was relieved by the mutants Aro4^K229L and Aro7^G141S. The final tyrosol producing engineered strain was constructed by the deletion of PHA2, replacement of the native promoter of ARO10 with the strong promoter PGK1p, and introduction of tyrosine decarboxylase PcAAS. In the background of m⁶A modification regulation, this strain ultimately produced 954.69 ± 43.72 mg/L of tyrosol, promoted by 61.7-fold in shake-flask fermentation.

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芳香族氨基酸及其衍生物是广泛应用于食品、制药和饲料行业的高价值化学品。目前芳香族氨基酸产品的制备方法存在诸多限制。本研究通过表观遗传修饰调控和优化芳香族氨基酸的生物合成途径，研究了芳香族氨基酸化合物酪醇的高效生物合成。过表达 m6A 修饰子 Ime4 和阅读子 Pho92 以及正调控子 Gcr2 能显著提高酪醇的产量。引入 Bbxfpk 和删除 Gpp1 进一步提高了酪醇的产量。然后，突变体 Aro4K229L 和 Aro7G141S 解除了莽草酸途径的反馈抑制。最后，通过删除 PHA2、用强启动子 PGK1p 替代 ARO10 的原生启动子以及引入酪氨酸脱羧酶 PcAAS，构建了产生酪醇的工程菌株。在 m6A 修饰调控的背景下，该菌株最终产生了 954.69 ± 43.72mg/L 的酪醇，在摇瓶发酵中提高了 61.7 倍。

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来源期刊

Journal of biotechnology 工程技术-生物工程与应用微生物

CiteScore

8.90

自引率

2.40%

发文量

190

审稿时长

45 days

期刊介绍： The Journal of Biotechnology has an open access mirror journal, the Journal of Biotechnology: X, sharing the same aims and scope, editorial team, submission system and rigorous peer review. The Journal provides a medium for the rapid publication of both full-length articles and short communications on novel and innovative aspects of biotechnology. The Journal will accept papers ranging from genetic or molecular biological positions to those covering biochemical, chemical or bioprocess engineering aspects as well as computer application of new software concepts, provided that in each case the material is directly relevant to biotechnological systems. Papers presenting information of a multidisciplinary nature that would not be suitable for publication in a journal devoted to a single discipline, are particularly welcome.