Untargeted Metabolomics of IAlternaria solani/I-Challenged Wild Tomato Species ISolanum cheesmaniae/I Revealed Key Metabolite Biomarkers and Insight into Altered Metabolic Pathways

Untargeted metabolomics of moderately resistant wild tomato species Solanum cheesmaniae revealed an altered metabolite profile in plant leaves in response to Alternaria solani pathogen. Leaf metabolites were significantly differentiated in non-stressed versus stressed plants. The samples were discri...

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Veröffentlicht in:	Metabolites 2023-04, Vol.13 (5)
Hauptverfasser:	Singh, Dhananjaya Pratap, Bisen, Mansi Singh, Prabha, Ratna, Maurya, Sudarshan, Yerasu, Suresh Reddy, Shukla, Renu, Tiwari, Jagesh Kumar, Chaturvedi, Krishna Kumar, Farooqi, Md. Samir, Srivastava, Sudhir, Rai, Anil, Sarma, Birinchi Kumar, Rai, Nagendra, Singh, Prabhakar Mohan, Behera, Tusar Kanti, Farag, Mohamed A
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Schlagworte:	Analysis Biological diversity Biological markers Growth Identification and classification Metabolomics Production management Tomatoes
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creator	Singh, Dhananjaya Pratap Bisen, Mansi Singh Prabha, Ratna Maurya, Sudarshan Yerasu, Suresh Reddy Shukla, Renu Tiwari, Jagesh Kumar Chaturvedi, Krishna Kumar Farooqi, Md. Samir Srivastava, Sudhir Rai, Anil Sarma, Birinchi Kumar Rai, Nagendra Singh, Prabhakar Mohan Behera, Tusar Kanti Farag, Mohamed A
description	Untargeted metabolomics of moderately resistant wild tomato species Solanum cheesmaniae revealed an altered metabolite profile in plant leaves in response to Alternaria solani pathogen. Leaf metabolites were significantly differentiated in non-stressed versus stressed plants. The samples were discriminated not only by the presence/absence of specific metabolites as distinguished markers of infection, but also on the basis of their relative abundance as important concluding factors. Annotation of metabolite features using the Arabidopsis thaliana (KEGG) database revealed 3371 compounds with KEGG identifiers belonging to biosynthetic pathways including secondary metabolites, cofactors, steroids, brassinosteroids, terpernoids, and fatty acids. Annotation using the Solanum lycopersicum database in PLANTCYC PMN revealed significantly upregulated (541) and downregulated (485) features distributed in metabolite classes that appeared to play a crucial role in defense, infection prevention, signaling, plant growth, and plant homeostasis to survive under stress conditions. The orthogonal partial least squares discriminant analysis (OPLS-DA), comprising a significant fold change (≥2.0) with VIP score (≥1.0), showed 34 upregulated biomarker metabolites including 5-phosphoribosylamine, kaur-16-en-18-oic acid, pantothenate, and O-acetyl-L-homoserine, along with 41 downregulated biomarkers. Downregulated metabolite biomarkers were mapped with pathways specifically known for plant defense, suggesting their prominent role in pathogen resistance. These results hold promise for identifying key biomarker metabolites that contribute to disease resistive metabolic traits/biosynthetic routes. This approach can assist in mQTL development for the stress breeding program in tomato against pathogen interactions.
doi_str_mv	10.3390/metabo13050585
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The orthogonal partial least squares discriminant analysis (OPLS-DA), comprising a significant fold change (≥2.0) with VIP score (≥1.0), showed 34 upregulated biomarker metabolites including 5-phosphoribosylamine, kaur-16-en-18-oic acid, pantothenate, and O-acetyl-L-homoserine, along with 41 downregulated biomarkers. Downregulated metabolite biomarkers were mapped with pathways specifically known for plant defense, suggesting their prominent role in pathogen resistance. These results hold promise for identifying key biomarker metabolites that contribute to disease resistive metabolic traits/biosynthetic routes. This approach can assist in mQTL development for the stress breeding program in tomato against pathogen interactions.</abstract><pub>MDPI AG</pub><doi>10.3390/metabo13050585</doi></addata></record>
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subjects	Analysis Biological diversity Biological markers Growth Identification and classification Metabolomics Production management Tomatoes
title	Untargeted Metabolomics of IAlternaria solani/I-Challenged Wild Tomato Species ISolanum cheesmaniae/I Revealed Key Metabolite Biomarkers and Insight into Altered Metabolic Pathways
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