Explore the interaction between root metabolism and rhizosphere microbiota during the growth of Angelica sinensis.
Front Plant Sci. 2022; 13:1005711.FP

Abstract

Angelica sinensis is a medicinal plant widely used to treat multiple diseases in Asia and Europe, which contains numerous active components with therapeutic value. The interaction between root and rhizosphere microorganisms is crucial for the growth and quality formation of medicinal plants. But the micro-plant-metabolite regulation patterns for A. sinensis remain largely undetermined. Here, we collected roots and rhizosphere soils from A. sinensis in seedling stage (M) and picking stage (G), respectively cultivated for one year and two years, generated metabolite for roots, microbiota data for rhizospheres, and conducted a comprehensive analysis. Changes in metabolic and microbial communities of A.sinensis over growth were distinct. The composition of rhizosphere microbes in G was dominated by proteobacteria, which had a strong correlation with the synthesis of organic acids, while in M was dominated by Actinobacteria, which had a strong correlation with the synthesis of phthalide and other organoheterocyclic compounds, flavonoids, amines, and fatty acid. Additionally, co-occurrence network analysis identified that Arthrobacter was found to be strongly correlated with the accumulation of senkyunolide A and n-butylidenephthalide. JGI 0001001.H03 was found to be strongly correlated with the accumulation of chlorogenic acid. Based on rhizosphere microorganisms, this study investigated the correlation between root metabolism and rhizosphere microbiota of A. sinensis at different growth stages in traditional geoherb region, which could provide references for exploring the quality formation mechanism of A. sinensis in the future.

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Authors+Show Affiliations

Chen JM

Jiangsu Collaborative Innovation Center of Chinese Medicinal Resources Industrialization, National and Local Collaborative Engineering Center of Chinese Medicinal Resources Industrialization and Formulae Innovative Medicine, Nanjing University of Chinese Medicine, Nanjing, China.

Pub Type(s)

Journal Article

Language

eng

PubMed ID

36420035

Citation

Chen, Jing-Mei, et al. "Explore the Interaction Between Root Metabolism and Rhizosphere Microbiota During the Growth of Angelica Sinensis." Frontiers in Plant Science, vol. 13, 2022, p. 1005711.

Chen JM, Feng WM, Yan H, et al. Explore the interaction between root metabolism and rhizosphere microbiota during the growth of Angelica sinensis. Front Plant Sci. 2022;13:1005711.

Chen, J. M., Feng, W. M., Yan, H., Liu, P., Zhou, G. S., Guo, S., Yu, G., & Duan, J. A. (2022). Explore the interaction between root metabolism and rhizosphere microbiota during the growth of Angelica sinensis. Frontiers in Plant Science, 13, 1005711. https://doi.org/10.3389/fpls.2022.1005711

Chen JM, et al. Explore the Interaction Between Root Metabolism and Rhizosphere Microbiota During the Growth of Angelica Sinensis. Front Plant Sci. 2022;13:1005711. PubMed PMID: 36420035.

* Article titles in AMA citation format should be in sentence-case

TY - JOUR T1 - Explore the interaction between root metabolism and rhizosphere microbiota during the growth of Angelica sinensis. AU - Chen,Jing-Mei, AU - Feng,Wei-Meng, AU - Yan,Hui, AU - Liu,Pei, AU - Zhou,Gui-Sheng, AU - Guo,Sheng, AU - Yu,Guang, AU - Duan,Jin-Ao, Y1 - 2022/11/07/ PY - 2022/07/28/received PY - 2022/10/17/accepted PY - 2022/11/24/entrez PY - 2022/11/25/pubmed PY - 2022/11/25/medline KW - Angelica sinensis KW - correlation KW - metabolomics KW - plant development stage KW - quality KW - rhizosphere microbiota SP - 1005711 EP - 1005711 JF - Frontiers in plant science JO - Front Plant Sci VL - 13 N2 - Angelica sinensis is a medicinal plant widely used to treat multiple diseases in Asia and Europe, which contains numerous active components with therapeutic value. The interaction between root and rhizosphere microorganisms is crucial for the growth and quality formation of medicinal plants. But the micro-plant-metabolite regulation patterns for A. sinensis remain largely undetermined. Here, we collected roots and rhizosphere soils from A. sinensis in seedling stage (M) and picking stage (G), respectively cultivated for one year and two years, generated metabolite for roots, microbiota data for rhizospheres, and conducted a comprehensive analysis. Changes in metabolic and microbial communities of A.sinensis over growth were distinct. The composition of rhizosphere microbes in G was dominated by proteobacteria, which had a strong correlation with the synthesis of organic acids, while in M was dominated by Actinobacteria, which had a strong correlation with the synthesis of phthalide and other organoheterocyclic compounds, flavonoids, amines, and fatty acid. Additionally, co-occurrence network analysis identified that Arthrobacter was found to be strongly correlated with the accumulation of senkyunolide A and n-butylidenephthalide. JGI 0001001.H03 was found to be strongly correlated with the accumulation of chlorogenic acid. Based on rhizosphere microorganisms, this study investigated the correlation between root metabolism and rhizosphere microbiota of A. sinensis at different growth stages in traditional geoherb region, which could provide references for exploring the quality formation mechanism of A. sinensis in the future. SN - 1664-462X UR - https://www.unboundmedicine.com/medline/citation/36420035/Explore_the_interaction_between_root_metabolism_and_rhizosphere_microbiota_during_the_growth_of_Angelica_sinensis_ DB - PRIME DP - Unbound Medicine ER -

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Explore the interaction between root metabolism and rhizosphere microbiota during the growth of Angelica sinensis.Front Plant Sci. 2022; 13:1005711.FP