Analysis of the metabolic pathways affected by hot-Humid or dry climate based on fecal metabolomics coupled with serum metabolic changes in broiler chickens

Zhou, Ying; Liu, Huchuan; Zhang, Min-Hong

doi:10.21203/rs.3.rs-18654/v1

Cited by 3 publications

(2 citation statements)

References 43 publications

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“…CmANR1-transgenic and WT chrysanthemum (six biological replicates of each sample) were used for metabolite profiling of roots and shoots. For the metabolomics and mass spectrometer (MS), as well as the metabolomics data processing and analysis were performed as the previously described [22,47].…”

Section: Uhplc/q-tof Settingsmentioning

confidence: 99%

New insights into the role of MADS-box transcription factor gene CmANR1 on root and shoot development in chrysanthemum (Chrysanthemum morifolium)

Sun

Wang

et al. 2021

BMC Plant Biol

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Background MADS-box transcription factors (TFs) are the key regulators of multiple developmental processes in plants; among them, a chrysanthemum MADS-box TF CmANR1 has been isolated and described as functioning in root development in response to high nitrate concentration signals. However, how CmANR1 affects root and shoot development remains unclear. Results We report that CmANR1 plays a positive role in root system development in chrysanthemum throughout the developmental stages of in vitro tissue cultures. Metabolomics combined with transcriptomics assays show that CmANR1 promotes robust root system development by facilitating nitrate assimilation, and influencing the metabolic pathways of amino acid, glycolysis, and the tricarboxylic acid cycle (TCA) cycle. Also, we found that the expression levels of TFs associated with the nitrate signaling pathways, such as AGL8, AGL21, and LBD29, are significantly up-regulated in CmANR1-transgenic plants relative to the wild-type (WT) control; by contrast, the expression levels of RHD3-LIKE, LBD37, and GATA23 were significantly down-regulated. These results suggest that these nitrate signaling associated TFs are involved in CmANR1-modulated control of root development. In addition, CmANR1 also acts as a positive regulator to control shoot growth and development. Conclusions These findings provide potential mechanisms of MADS-box TF CmANR1 modulation of root and shoot development, which occurs by regulating a series of nitrate signaling associated TFs, and influencing the metabolic pathways of amino acid and glycolysis, as well as TCA cycle and nitrate assimilation.

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Section: Uhplc/q-tof Settingsmentioning

confidence: 99%

New insights into the role of MADS-box transcription factor gene CmANR1 on root and shoot development in chrysanthemum (Chrysanthemum morifolium)

Sun

Wang

et al. 2021

BMC Plant Biol

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“…Ho et al (Ho et al 2018) used metabolomics technology to identify 6 compounds with antibacterial activity from black walnut. Based on the quantitative analysis of metabolites, metabolomics can be used for the analysis of metabolic pathways or metabolic networks, the basic research of metabolism of the macroscopic phenotypic phenomena of different organisms, and the metabolites of different diseases, drugs and other physical, chemical or pathogenic organisms (Zhou et al 2020 ) .…”

Section: Introductionmentioning

confidence: 99%

Analysis of primary metabolites of Morchella fruit bodies and mycelium based on widely targeted metabolomics

Yang

Wang³

et al. 2021

Arch Microbiol

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Morchella is a kind of medicinal and edible homologous fungia that is rich in multiple metabolites. The metabolites from Morchella are a kind of essential substance because of their biological activities. In this study, Morchella fruit bodies and mycelium were selected to identify their metabolites. The primary metabolites of the two experimental group were analyzed using a method of widely targeted metabolome based on UPLC-ESI-MS/MS. A total of 354 different metabolites, including 188 upregulated metabolites and 166 downregulated metabolites, were characterized. Further, the main 20 metabolic pathways of the metabolites were analyzed. The rst 9 ones are tyrosine metabolites, thyroid hormone biosynthetic pathway, phenylalanine metabolites, linoleic metabolites synthetic pathway, glycerophosphate metabolic pathway, choline in tumors, methyl butyl metabolites, arginine synthetic pathway, arginine, arginine and proline metabolites. This study provides theoretical basis for the analysis of metabolic pathway of Morchella fruit bodies and mycelium that serving for further research of their medicinal mechanism and effective components.

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Analysis of Primary Metabolites of Morchella Fruit Bodies And Mycelium Based On Widely Targeted Metabolomics

Yang

Wang³

et al. 2021

Preprint

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Morchella is a kind of medicinal and edible homologous fungia that is rich in multiple metabolites. The metabolites from Morchella are a kind of essential substance because of their biological activities. In this study, Morchella fruit bodies and mycelium were selected to identify their metabolites. The primary metabolites of the two experimental group were analyzed using a method of widely targeted metabolome based on UPLC-ESI-MS/MS. A total of 354 different metabolites, including 188 upregulated metabolites and 166 downregulated metabolites, were characterized. Further, the main 20 metabolic pathways of the metabolites were analyzed. The first 9 ones are tyrosine metabolites, thyroid hormone biosynthetic pathway, phenylalanine metabolites, linoleic metabolites synthetic pathway, glycerophosphate metabolic pathway, choline in tumors, methyl butyl metabolites, arginine synthetic pathway, arginine, arginine and proline metabolites. This study provides theoretical basis for the analysis of metabolic pathway of Morchella fruit bodies and mycelium that serving for further research of their medicinal mechanism and effective components.

show abstract

Analysis of the metabolic pathways affected by hot-Humid or dry climate based on fecal metabolomics coupled with serum metabolic changes in broiler chickens

Cited by 3 publications

References 43 publications

New insights into the role of MADS-box transcription factor gene CmANR1 on root and shoot development in chrysanthemum (Chrysanthemum morifolium)

New insights into the role of MADS-box transcription factor gene CmANR1 on root and shoot development in chrysanthemum (Chrysanthemum morifolium)

Analysis of primary metabolites of Morchella fruit bodies and mycelium based on widely targeted metabolomics

Analysis of Primary Metabolites of Morchella Fruit Bodies And Mycelium Based On Widely Targeted Metabolomics

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