Utilizing Microbial Inoculants to Alleviate Continuous Cropping Obstacles: Insights into the Metabolites and Transcriptomic Responses of Pinellia ternata DOI Creative Commons
Xinyu Wang, Mohammad Murtaza Alami, Shiyuan Gong

et al.

Metabolites, Journal Year: 2025, Volume and Issue: 15(3), P. 189 - 189

Published: March 11, 2025

Pinellia ternata (Thunb.) Breit is a widely used medicinal herb in Traditional Chinese Medicine (TCM). Still, its sustainable cultivation threatened by continuous cropping obstacles, which disrupt soil ecosystems, reduce yield, and degrade quality. Objectives: This study explores the potential of microbial inoculants to mitigate these challenges through integrated metabolomic transcriptomic analyses. Methods: Soil samples from fields with without issues were compare effects on secondary metabolism gene expression P. ternata. Results Discussion: Metabolomic profiling identified 20,969 metabolites, significant changes lipid-like molecules (22.2%), organic acids (9.1%), phenylpropanoids (7.0%) under treatment. Notable increases phenylalanine caffeic acid levels observed microbial-inoculated plants. Correspondingly, analysis revealed upregulation ammonia-lyase (PAL) other stress-related genes, confirming metabolic shifts. Clustering machine learning analyses highlighted critical roles metabolites genes enhancing plant resilience. Microbial improved metabolite production. Implications: These findings provide valuable insights into mechanisms microbial-plant interactions establish approach for cultivating ternata, addressing while improving crop productivity

Language: Английский

Utilizing Microbial Inoculants to Alleviate Continuous Cropping Obstacles: Insights into the Metabolites and Transcriptomic Responses of Pinellia ternata DOI Creative Commons
Xinyu Wang, Mohammad Murtaza Alami, Shiyuan Gong

et al.

Metabolites, Journal Year: 2025, Volume and Issue: 15(3), P. 189 - 189

Published: March 11, 2025

Pinellia ternata (Thunb.) Breit is a widely used medicinal herb in Traditional Chinese Medicine (TCM). Still, its sustainable cultivation threatened by continuous cropping obstacles, which disrupt soil ecosystems, reduce yield, and degrade quality. Objectives: This study explores the potential of microbial inoculants to mitigate these challenges through integrated metabolomic transcriptomic analyses. Methods: Soil samples from fields with without issues were compare effects on secondary metabolism gene expression P. ternata. Results Discussion: Metabolomic profiling identified 20,969 metabolites, significant changes lipid-like molecules (22.2%), organic acids (9.1%), phenylpropanoids (7.0%) under treatment. Notable increases phenylalanine caffeic acid levels observed microbial-inoculated plants. Correspondingly, analysis revealed upregulation ammonia-lyase (PAL) other stress-related genes, confirming metabolic shifts. Clustering machine learning analyses highlighted critical roles metabolites genes enhancing plant resilience. Microbial improved metabolite production. Implications: These findings provide valuable insights into mechanisms microbial-plant interactions establish approach for cultivating ternata, addressing while improving crop productivity

Language: Английский

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