Your search keyword '"Hai-Xue Pan"' showing total 9 results

1. Identification and characterization of a strong constitutive promoter stnYp for activating biosynthetic genes and producing natural products in streptomyces

Author

Wenli Guo, Zhihong Xiao, Tingting Huang, Kai Zhang, Hai-Xue Pan, Gong-Li Tang, Zixin Deng, Rubing Liang, and Shuangjun Lin

Subjects

Natural products, Streptomyces, Constitutive promoter, stnYp, Heterologous expression, Biosynthetic gene cluster, Microbiology, QR1-502

Abstract

Abstract Background Streptomyces are well known for their potential to produce various pharmaceutically active compounds, the commercial development of which is often limited by the low productivity and purity of the desired compounds expressed by natural producers. Well-characterized promoters are crucial for driving the expression of target genes and improving the production of metabolites of interest. Results A strong constitutive promoter, stnYp, was identified in Streptomyces flocculus CGMCC4.1223 and was characterized by its effective activation of silent biosynthetic genes and high efficiency of heterologous gene expression. The promoter stnYp showed the highest activity in model strains of four Streptomyces species compared with the three frequently used constitutive promoters ermEp*, kasOp*, and SP44. The promoter stnYp could efficiently activate the indigoidine biosynthetic gene cluster in S. albus J1074, which is thought to be silent under routine laboratory conditions. Moreover, stnYp was found suitable for heterologous gene expression in different Streptomyces hosts. Compared with the promoters ermEp*, kasOp*, and SP44, stnYp conferred the highest production level of diverse metabolites in various heterologous hosts, including the agricultural-bactericide aureonuclemycin and the antitumor compound YM-216391, with an approximately 1.4 − 11.6-fold enhancement of the yields. Furthermore, the purity of tylosin A was greatly improved by overexpressing rate-limiting genes through stnYp in the industrial strain. Further, the yield of tylosin A was significantly elevated to 10.30 ± 0.12 g/L, approximately 1.7-fold higher than that of the original strain. Conclusions The promoter stnYp is a reliable, well-defined promoter with strong activity and broad suitability. The findings of this study can expand promoter diversity, facilitate genetic manipulation, and promote metabolic engineering in multiple Streptomyces species.

Published

2023

2. Newly Discovered Mechanisms of Antibiotic Self-Resistance with Multiple Enzymes Acting at Different Locations and Stages

Author

Xiaorong Chen, Hai-Xue Pan, and Gong-Li Tang

Subjects

self-resistance, natural products, biosynthetic gene clusters, temporal-spatial shielding, intracellular multi-level resistance, Therapeutics. Pharmacology, RM1-950

Abstract

Self-resistance determinants are essential for the biosynthesis of bioactive natural products and are closely related to drug resistance in clinical settings. The study of self-resistance mechanisms has long moved forward on the discovery of new resistance genes and the characterization of enzymatic reactions catalyzed by these proteins. However, as more examples of self-resistance have been reported, it has been revealed that the enzymatic reactions contribute to self-protection are not confined to the cellular location where the final toxic compounds are present. In this review, we summarize representative examples of self-resistance mechanisms for bioactive natural products functional at different cell locations to explore the models of resistance strategies involved. Moreover, we also highlight those resistance determinants that are widespread in nature and describe the applications of self-resistance genes in natural product mining to interrogate the landscape of self-resistance genes in drug resistance-related new drug discovery.

Published

2022

3. New insights into bacterial type II polyketide biosynthesis [version 1; referees: 2 approved]

Author

Zhuan Zhang, Hai-Xue Pan, and Gong-Li Tang

Subjects

Applied Microbiology, Biocatalysis, Directed Molecular Evolution, Macromolecular Assemblies & Machines, Microbial Physiology & Metabolism, Small Molecule Chemistry, Medicine, Science

Abstract

Bacterial aromatic polyketides, exemplified by anthracyclines, angucyclines, tetracyclines, and pentangular polyphenols, are a large family of natural products with diverse structures and biological activities and are usually biosynthesized by type II polyketide synthases (PKSs). Since the starting point of biosynthesis and combinatorial biosynthesis in 1984–1985, there has been a continuous effort to investigate the biosynthetic logic of aromatic polyketides owing to the urgent need of developing promising therapeutic candidates from these compounds. Recently, significant advances in the structural and mechanistic identification of enzymes involved in aromatic polyketide biosynthesis have been made on the basis of novel genetic, biochemical, and chemical technologies. This review highlights the progress in bacterial type II PKSs in the past three years (2013–2016). Moreover, novel compounds discovered or created by genome mining and biosynthetic engineering are also included.

Published

2017

4. Identification and Characterization of Enzymes Catalyzing Early Steps in Miharamycin and Amipurimycin Biosynthesis.

Author

Wen-He Zhang, Fei Wang, Yi-Lin Wang, Song You, Hai-Xue Pan, and Gong-Li Tang

Published

2021

5. Identification of the Amipurimycin Gene Cluster Yields Insight into the Biosynthesis of C9 Sugar Nucleoside Antibiotics.

Author

Wen-Jia Kang, Hai-Xue Pan, Shengyang Wang, Biao Yu, Huiming Hua, and Gong-Li Tang

Published

2019

6. Elucidation of the Herbicidin Tailoring Pathway Offers Insights into Its Structural Diversity.

Author

Hai-Xue Pan, Zhang Chen, Tianfang Zeng, Wen-Bing Jin, Yujie Geng, Geng-Min Lin, Juan Zhao, Wei-Tao Li, Zijun Xiong, Sheng-Xiong Huang, Xin Zhai, Hung-wen Liu, and Gong-Li Tang

Published

2019

7. PREPARATION AND REFOLDING OF RECOMBINANT HUMAN INTERFERON-GAMMA INCLUSION BODIES.

Author

TING JIN, YI-XIN GUAN, HAI-XUE PAN, SHAN-JING YAO, and MAN-GI CHO

Subjects

INTERFERON receptors, INTERFERONS, GAMMA ray sources, RECOMBINANT DNA, BIOREACTORS

Published

2004

8. Improvement of spinosad production by overexpression of gtt and gdh controlled by promoter PermE* in Saccharopolyspora spinosa SIPI-A2090.

Author

Hai-Xue Pan, Ji-An Li, Ning-Jun He, Ji-Ye Chen, Yu-Meng Zhou, Lei Shao, and Dai-Jie Chen

Subjects

ACTINOMYCETALES, SPINOSYN, MACROLIDE antibiotics, GLUCOSE synthesis, GENETIC engineering

Abstract

Spinosyns A and D are novel macrolide secondary metabolites containing two deoxysugars. Each of the sugars is derived from a common intermediate, which is biosynthesized sequentially by NDP-glucose synthase and glucose dehydratase. Systematical duplication of gtt and gdh was carried out by genetic engineering in Saccharopolyspora spinosa. Introduction of additional gtt and gdh genes under the control of PermE* promoter showed significant increase on their transcript levels. The production of spinosad was increased by over threefold to reach 800 μg/ml in the recombinant strain SIPI-M2093. [ABSTRACT FROM AUTHOR]

Published

2011

9. Quartromicin Biosynthesis: Two Alternative Polyketide Chains Produced by One Polyketide Synthase Assembly Line

Author

Bei-Bei Zhang, Han-Bo Chai, Gong-Li Tang, Hai-Xue Pan, Long-Fei Wu, Wen Liu, and Hai-Yan He

Subjects

Stereochemistry, Clinical Biochemistry, Molecular Sequence Data, Stereoisomerism, Ring (chemistry), Biochemistry, Antiviral Agents, Polyketide, chemistry.chemical_compound, Biosynthesis, Polyketide synthase, Gene cluster, Drug Discovery, Moiety, Spiro Compounds, Cloning, Molecular, Furans, Gene, Molecular Biology, Pharmacology, biology, Computational Biology, General Medicine, chemistry, Cyclization, Multigene Family, biology.protein, Molecular Medicine, Polyketide Synthases

Abstract

SummaryThe antiviral compounds quartromicins represent unique members of a family of spirotetronate natural products. In this study, a biosynthetic gene cluster of quartromicins was identified by degenerate primer PCR amplification of specific genes involved in the biosynthesis of the tetronate moiety. The biochemical results confirmed that 1,3-bisphosphoglycerate was incorporated into the tetronate ring, and the intermediates of this ring were also reconstructed in vitro. The data also suggested a module skipping strategy for the production of two alternative polyketide chains by the same polyketide synthase assembly line. These findings set the stage for further investigations of the stereodivergent intermolecular cyclization mechanism, and highlight how nature has constructed this type of C2 symmetric molecule through intermolecular dimerization.