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ARTP/NTG Compound Mutagenesis Improved the Spinosad Production and the Insecticidal Virulence of Saccharopolyspora Spinosa

by Chen, Wangqiong , Rang, Jie , Xia, Ziyuan , Hu, Shengbiao , Cao, Li , Xia, Liqiu , Zhu, Zirong

in Actinomycetes / Biomass / Biosynthesis / Chemical properties / Drug Combinations / Fermentation / Genes / Genetic aspects / Glucose / Health aspects / Industrial production / Insecticides - metabolism / Insecticides - pharmacology / Macrolides - metabolism / Mass spectrometry / Metabolic Engineering - methods / Metabolism / Metabolites / Methods / Microbial genetic engineering / Microbiological synthesis / Mutagenesis / Mutation / Plasma / Saccharopolyspora - genetics / Saccharopolyspora - metabolism / Scientific imaging / Spinosad / Thymine Nucleotides - metabolism / Virulence / Virulence - genetics

2024

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ARTP/NTG Compound Mutagenesis Improved the Spinosad Production and the Insecticidal Virulence of Saccharopolyspora Spinosa

by Chen, Wangqiong , Rang, Jie , Xia, Ziyuan , Hu, Shengbiao , Cao, Li , Xia, Liqiu , Zhu, Zirong

2024

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ARTP/NTG Compound Mutagenesis Improved the Spinosad Production and the Insecticidal Virulence of Saccharopolyspora Spinosa

by Chen, Wangqiong , Rang, Jie , Xia, Ziyuan , Hu, Shengbiao , Cao, Li , Xia, Liqiu , Zhu, Zirong

2024

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Journal Article

ARTP/NTG Compound Mutagenesis Improved the Spinosad Production and the Insecticidal Virulence of Saccharopolyspora Spinosa

Chen, Wangqiong,

Rang, Jie,

Xia, Ziyuan,

Hu, Shengbiao,

Cao, Li,

Xia, Liqiu,

Zhu, Zirong

2024

Overview

Spinosad is an efficient and broad-spectrum environmentally friendly biopesticide, but its low yield in wild-type Saccharopolyspora spinosa limits its further application. ARTP/NTG compound mutagenesis was used in this study to improve the spinosad titer of S. spinosa and obtain a high-yield mutant—NT24. Compared with the wild-type strain, the fermentation cycle of NT24 was shortened by 2 days and its maximum titer of spinosad reached 858.3 ± 27.7 mg/L, which is 5.12 times more than for the same-period titer of the wild-type strain. In addition, RT-qPCR, resequencing, and targeted metabolomics showed that the upregulation of the key differential genes accD6, fadD, sdhB, oadA, and gntZ caused increased metabolic flux in the tricarboxylic acid cycle and pentose phosphate pathway, suggesting that the accumulation of pyruvate and short-chain acyl-CoA was the primary cause of spinosad accumulation in NT24. This study demonstrates the effectiveness of ARTP mutagenesis in S. spinosa, and provides new insights for the mechanism of spinosad biosynthesis and metabolic engineering in S. spinosa.

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Publisher

MDPI AG,MDPI

Subject

Actinomycetes

/ Biomass

/ Biosynthesis

/ Chemical properties

/ Drug Combinations

/ Fermentation

/ Genes