The Different Metabolic Responses of Resistant and Susceptible Wheats to IFusarium graminearum/I Inoculation

Fusarium head blight (FHB) is a serious wheat disease caused by Fusarium graminearum (Fg) Schwabe. FHB can cause huge loss in wheat yield. In addition, trichothecene mycotoxins produced by Fg are harmful to the environment and humans. In our previous study, we obtained two mutants TPS1[sup.−] and TP...

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Veröffentlicht in:	Metabolites 2022-08, Vol.12 (8)
Hauptverfasser:	Liu, Caixiang, Chen, Fangfang, Liu, Laixing, Fan, Xinyu, Liu, Huili, Zeng, Danyun, Zhang, Xu
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Sprache:	eng
Schlagworte:	Agricultural research Causes of Control Development and progression Diseases and pests Fungal diseases of plants Genetic aspects Methods Physiological aspects Plant immunology Soil inoculation Wheat
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description	Fusarium head blight (FHB) is a serious wheat disease caused by Fusarium graminearum (Fg) Schwabe. FHB can cause huge loss in wheat yield. In addition, trichothecene mycotoxins produced by Fg are harmful to the environment and humans. In our previous study, we obtained two mutants TPS1[sup.−] and TPS2[sup.−] . Neither of these mutants could synthesize trehalose, and they produced fewer mycotoxins. To understand the complex interaction between Fg and wheat, we systematically analyzed the metabolic responses of FHB-susceptible and -resistant wheat to ddH[sub.2] O, the TPS[sup.−] mutants and wild type (WT) using NMR combined with multivariate analysis. More than 40 metabolites were identified in wheat extracts including sugars, amino acids, organic acids, choline metabolites and other metabolites. When infected by Fg, FHB-resistant and -susceptible wheat plants showed different metabolic responses. For FHB-resistant wheat, there were clear metabolic differences between inoculation with mutants (TPS1[sup.−] /TPS2[sup.−] ) and with ddH[sub.2] O/WT. For the susceptible wheat, there were obvious metabolic differences between inoculation with mutant (TPS1[sup.−] /TPS2[sup.−] ) and inoculation with ddH[sub.2] O; however, there were no significant metabolic differences between inoculation with TPS[sup.−] mutants and with WT. Specifically, compared with ddH[sub.2] O, resistant wheat increased the levels of Phe, p-hydroxy cinnamic acid (p-HCA), and chlorogenic acid in response to TPS[sup.−] mutants; however, susceptible wheat did not. Shikimate-mediated secondary metabolism was activated in the FHB-resistant wheat to inhibit the growth of Fg and reduce the production of mycotoxins. These results can be helpful for the development of FHB-resistant wheat varieties, although the molecular relationship between the trehalose biosynthetic pathway in Fg and shikimate-mediated secondary metabolism in wheat remains to be further studied.
doi_str_mv	10.3390/metabo12080727
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FHB can cause huge loss in wheat yield. In addition, trichothecene mycotoxins produced by Fg are harmful to the environment and humans. In our previous study, we obtained two mutants TPS1[sup.−] and TPS2[sup.−] . Neither of these mutants could synthesize trehalose, and they produced fewer mycotoxins. To understand the complex interaction between Fg and wheat, we systematically analyzed the metabolic responses of FHB-susceptible and -resistant wheat to ddH[sub.2] O, the TPS[sup.−] mutants and wild type (WT) using NMR combined with multivariate analysis. More than 40 metabolites were identified in wheat extracts including sugars, amino acids, organic acids, choline metabolites and other metabolites. When infected by Fg, FHB-resistant and -susceptible wheat plants showed different metabolic responses. For FHB-resistant wheat, there were clear metabolic differences between inoculation with mutants (TPS1[sup.−] /TPS2[sup.−] ) and with ddH[sub.2] O/WT. For the susceptible wheat, there were obvious metabolic differences between inoculation with mutant (TPS1[sup.−] /TPS2[sup.−] ) and inoculation with ddH[sub.2] O; however, there were no significant metabolic differences between inoculation with TPS[sup.−] mutants and with WT. Specifically, compared with ddH[sub.2] O, resistant wheat increased the levels of Phe, p-hydroxy cinnamic acid (p-HCA), and chlorogenic acid in response to TPS[sup.−] mutants; however, susceptible wheat did not. Shikimate-mediated secondary metabolism was activated in the FHB-resistant wheat to inhibit the growth of Fg and reduce the production of mycotoxins. 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For the susceptible wheat, there were obvious metabolic differences between inoculation with mutant (TPS1[sup.−] /TPS2[sup.−] ) and inoculation with ddH[sub.2] O; however, there were no significant metabolic differences between inoculation with TPS[sup.−] mutants and with WT. Specifically, compared with ddH[sub.2] O, resistant wheat increased the levels of Phe, p-hydroxy cinnamic acid (p-HCA), and chlorogenic acid in response to TPS[sup.−] mutants; however, susceptible wheat did not. Shikimate-mediated secondary metabolism was activated in the FHB-resistant wheat to inhibit the growth of Fg and reduce the production of mycotoxins. 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FHB can cause huge loss in wheat yield. In addition, trichothecene mycotoxins produced by Fg are harmful to the environment and humans. In our previous study, we obtained two mutants TPS1[sup.−] and TPS2[sup.−] . Neither of these mutants could synthesize trehalose, and they produced fewer mycotoxins. To understand the complex interaction between Fg and wheat, we systematically analyzed the metabolic responses of FHB-susceptible and -resistant wheat to ddH[sub.2] O, the TPS[sup.−] mutants and wild type (WT) using NMR combined with multivariate analysis. More than 40 metabolites were identified in wheat extracts including sugars, amino acids, organic acids, choline metabolites and other metabolites. When infected by Fg, FHB-resistant and -susceptible wheat plants showed different metabolic responses. For FHB-resistant wheat, there were clear metabolic differences between inoculation with mutants (TPS1[sup.−] /TPS2[sup.−] ) and with ddH[sub.2] O/WT. For the susceptible wheat, there were obvious metabolic differences between inoculation with mutant (TPS1[sup.−] /TPS2[sup.−] ) and inoculation with ddH[sub.2] O; however, there were no significant metabolic differences between inoculation with TPS[sup.−] mutants and with WT. Specifically, compared with ddH[sub.2] O, resistant wheat increased the levels of Phe, p-hydroxy cinnamic acid (p-HCA), and chlorogenic acid in response to TPS[sup.−] mutants; however, susceptible wheat did not. Shikimate-mediated secondary metabolism was activated in the FHB-resistant wheat to inhibit the growth of Fg and reduce the production of mycotoxins. These results can be helpful for the development of FHB-resistant wheat varieties, although the molecular relationship between the trehalose biosynthetic pathway in Fg and shikimate-mediated secondary metabolism in wheat remains to be further studied.</abstract><pub>MDPI AG</pub><doi>10.3390/metabo12080727</doi></addata></record>
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subjects	Agricultural research Causes of Control Development and progression Diseases and pests Fungal diseases of plants Genetic aspects Methods Physiological aspects Plant immunology Soil inoculation Wheat
title	The Different Metabolic Responses of Resistant and Susceptible Wheats to IFusarium graminearum/I Inoculation
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