Microbial production of the plant-derived fungicide physcion
Feifei Qi
1, 2, 3, 4
,
Wei Zhang
1, 2, 3, 5
,
Yingying Xue
2, 3, 6
,
Ce Geng
2, 3, 6
,
Jin Zhang
7, 8
,
Jibin Li
8
,
Q Guo
8
,
Xuenian Huang
1, 2, 3, 9
,
Xuefeng Lu
1, 2, 3, 4, 10
1
Qingdao New Energy Shandong Laboratory, Qingdao, Shandong, 266101, China
|
2
Shandong Energy Institute, Qingdao, Shandong, 266101, China
|
6
Qingdao New Energy Shandong Laboratory, Qingdao, Shandong, 266101, China.
|
7
8
Shandong Lukang Pharmaceutical Co. Ltd., No. 88, Deyuan Road, Jining, Shandong, 272021, China.
|
10
Marine Biology and Biotechnology Laboratory, Qingdao National Laboratory for Marine Science and Technology, Qingdao, Shandong, 266237, China. Electronic address: lvxf@qibebt.ac.cn.
|
Тип публикации: Journal Article
Дата публикации: 2022-11-01
scimago Q1
wos Q1
БС1
SJR: 1.771
CiteScore: 14.0
Impact factor: 6.8
ISSN: 10967176, 10967184
PubMed ID:
36328293
Applied Microbiology and Biotechnology
Biotechnology
Bioengineering
Краткое описание
Physcion is a characteristic component of the traditional herb rhubarb with diverse pharmacological activities that has been commercially approved as an herbal fungicide. Nevertheless, its extremely low contents, costly purification procedure and geographically restricted planting severely hinder its application. Here, a cell factory was constructed in the filamentous fungus Aspergillus terreus for physcion production via microbial fermentation by integrating a pathway-modified emodin accumulation module and a position-selective emodin methylation module. Specifically, 1.71 g/L emodin accumulated when the transcriptional activator GedR and the emodin-1-OH-O-methyltransferase GedA in the geodin biosynthetic pathway were overexpressed and knocked out, respectively. Subsequently, potential emodin-3-OH-O-methyltransferase candidates were enzymatically screened in vitro and introduced into the emodin-accumulating mutant in vivo to generate a physcion-producing strain showing the highest titre of 6.3 g/L in fed-batch fermentation. Thus, our study provides an alternative strategy for the highly efficient, economical production of physcion and a representative example for microbial synthetic biology.
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ГОСТ |
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ГОСТ
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Qi F. et al. Microbial production of the plant-derived fungicide physcion // Metabolic Engineering. 2022. Vol. 74. pp. 130-138.
ГОСТ со всеми авторами (до 50)
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Qi F., Zhang W., Xue Y., Geng C., Zhang J., Li J., Guo Q., Huang X., Lu X. Microbial production of the plant-derived fungicide physcion // Metabolic Engineering. 2022. Vol. 74. pp. 130-138.
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TY - JOUR
DO - 10.1016/j.ymben.2022.10.007
UR - https://doi.org/10.1016/j.ymben.2022.10.007
TI - Microbial production of the plant-derived fungicide physcion
T2 - Metabolic Engineering
AU - Qi, Feifei
AU - Zhang, Wei
AU - Xue, Yingying
AU - Geng, Ce
AU - Zhang, Jin
AU - Li, Jibin
AU - Guo, Q
AU - Huang, Xuenian
AU - Lu, Xuefeng
PY - 2022
DA - 2022/11/01
PB - Elsevier
SP - 130-138
VL - 74
PMID - 36328293
SN - 1096-7176
SN - 1096-7184
ER -
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BibTex (до 50 авторов)
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@article{2022_Qi,
author = {Feifei Qi and Wei Zhang and Yingying Xue and Ce Geng and Jin Zhang and Jibin Li and Q Guo and Xuenian Huang and Xuefeng Lu},
title = {Microbial production of the plant-derived fungicide physcion},
journal = {Metabolic Engineering},
year = {2022},
volume = {74},
publisher = {Elsevier},
month = {nov},
url = {https://doi.org/10.1016/j.ymben.2022.10.007},
pages = {130--138},
doi = {10.1016/j.ymben.2022.10.007}
}