Linghui Zheng scite author profile

Monacolin J is a key precursor for the synthesis of the cholesterol-lowering drug simvastatin. Industrially, monacolin J is manufactured through the alkaline hydrolysis of the fungal polyketide lovastatin, which is relatively complex and environmentally unfriendly. A cell factory for monacolin J production was created by heterologously introducing lovastatin hydrolase into Aspergillus terreus in our previous study. However, residual lovastatin remained a problem for the downstream product purification. In this study, we used combined metabolic engineering strategies to create a more efficient and robust monacolin J-producing cell factory that completely lacks lovastatin residue. The complete deletion of the key gene lovF blocked the biosynthesis of lovastatin and led to a large accumulation of monacolin J without any lovastatin residue. Additionally, the overexpression of the specific transcription factor lovE under the PgpdAt promoter further increased the titer of monacolin J by 52.5% to 5.5 g L–1. Interestingly, the fermentation robustness was also significantly improved by the expression of lovE. This improvement not only avoids the process of alkaline hydrolysis but also simplifies the downstream separation process.

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Chromopeptide A, a highly cytotoxic depsipeptide from the marine sediment-derived bacterium Chromobacterium sp. HS-13-94

Zhou

Wang

Zhang

et al. 2015

Acta Pharmaceutica Sinica B

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A bicyclic depsipeptide, chromopeptide A (1), was isolated from a deep-sea-derived bacterium Chromobacterium sp. HS-13-94. Its structure was determined by extensive spectroscopic analysis and by comparison with a related known compound. The absolute configuration of chromopeptide A was established by X-ray diffraction analysis employing graphite monochromated Mo Kα radiation (λ=0.71073 Å) with small Flack parameter 0.03. Chromopeptide A suppressed the proliferation of HL-60, K-562, and Ramos cells with average IC50 values of 7.7, 7.0, and 16.5 nmol/L, respectively.

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Enhanced Single-Step Bioproduction of the Simvastatin Precursor Monacolin J in an Industrial Strain ofAspergillus terreusby Employing the Evolved Lovastatin Hydrolase

et al. 2018

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Biosynthesis of simvastatin, the active pharmaceutical ingredient of cholesterol-lowering drug Zocor, has drawn increasing global attention in recent years. Although single-step in vivo production of monacolin J, the intermediate biosynthetic precursor of simvastatin, has been realized by utilizing lovastatin hydrolase (PcEST) in our previous study, about 5% of residual lovastatin is still a problem for industrial production and quality control. In order to improve conversion efficiency and reduce lovastatin residues, modification of PcEST is carried out through directed evolution and a novel two-step high-throughput screening method. The mutant Q140L shows 18-fold improved whole-cell activity as compared to the wild-type, and one fold enhanced catalytic efficiency and 3 °C increased T over the wild-type are observed by characterizing the purified protein. Finally, the engineered A. terreus strain overexpressing Q140L mutant exhibited the increased conversion efficiency and the reduced lovastatin residues by comparing with A. terreus strain overexpressing the wild-type PcEST, where almost 100% of the produced lovastatin is hydrolyzed to monacolin J. Therefore, this improved microbial cell factory can realize single-step bioproduction of monacolin J in a more efficient way, providing an attractive and eco-friendly substitute over the existing chemical synthetic routes of monacolin J and promoting complete bioproduction of simvastatin at industrial scale.

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Overproduction of gentamicin B in industrial strain Micromonospora echinospora CCTCC M 2018898 by cloning of the missing genes genR and genS

Chang

Chai

Ding

et al. 2019

Metabolic Engineering Communications

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In pharmaceutical industry, isepamicin is mainly manufactured from gentamicin B, which is produced by Micromonospora echinospora as a minor component of the gentamicin complex. Improvement of gentamicin B production through metabolic engineering is therefore important to satisfy the increasing demand for isepamicin. We hypothesized that gentamicin B was generated from gentamicin JI-20A via deamination of the C2’ amino group. Using kanJ and kanK as the gene probes, we identified the putative deamination-related genes, genR and genS, through genome mining of the gentamicin B producing strain M. echinospora CCTCC M 2018898. Interestingly, genR and genS constitute a gene cassette located approximately 28.7 kb away from the gentamicin gene cluster. Gene knockout of genR and genS almost abolished the production of gentamicin B in the mutant strain, suggesting that these two genes, which are responsible for the last steps in gentamicin B biosynthesis, constitute the missing part of the known gentamicin biosynthetic pathway. Based on these finding, we successfully constructed a gentamicin B high-yielding strain (798 mg/L), in which an overexpression cassette of genR and genS was introduced. Our work fills the missing piece to solve the puzzle of gentamicin B biosynthesis and may inspire future metabolic engineering efforts to generate gentamycin B high-yielding strains that could eventually satisfy the need for industrial manufacturing of isepamicin.

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Linghui Zheng

Construction of an Efficient and Robust Aspergillus terreus Cell Factory for Monacolin J Production

Chromopeptide A, a highly cytotoxic depsipeptide from the marine sediment-derived bacterium Chromobacterium sp. HS-13-94

Enhanced Single-Step Bioproduction of the Simvastatin Precursor Monacolin J in an Industrial Strain ofAspergillus terreusby Employing the Evolved Lovastatin Hydrolase

Overproduction of gentamicin B in industrial strain Micromonospora echinospora CCTCC M 2018898 by cloning of the missing genes genR and genS

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