Metabolomics of Disease Resistance in Crops

Arbona, Vicent; Gómez-Cádenas, Aurelio

doi:10.21775/9781910190357.04

Cited by 16 publications

(7 citation statements)

References 140 publications

(122 reference statements)

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Section: Plant-fungus Interactionmentioning

confidence: 99%

“…An increase in GABA and proline was observed in Epipactis species upon infection with albino fungi (Lallemand et al 2019). Phytoanticipins are defense molecules released post‐pathogen infection into their toxic forms, while phytoalexins are synthesised during direct interaction under pathogen infection (Pedras et al 2008, Arbona and Gomez Cadenas, 2016); indole glucosinates and camalexins are such defense compounds (Schlaeppi et al 2010; Buxdorf et al 2013). Both of these molecules act as a catalyst in Arabidopsis and initiate the defense system against Phytophthora brassicae (Schlaeppi et al 2010).…”

Section: Metabolomic Fingerprinting During Biotic Stress On Plantsmentioning

confidence: 99%

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Metabolomics‐driven investigation of plant defense response against pest and pathogen attack

Kumari,

Yagnik,

Gupta

et al. 2024

Physiologia Plantarum

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The advancement of metabolomics has assisted in the identification of various bewildering characteristics of the biological system. Metabolomics is a standard approach, facilitating crucial aspects of system biology with absolute quantification of metabolites using minimum samples, based on liquid/gas chromatography, mass spectrometry and nuclear magnetic resonance. The metabolome profiling has narrowed the wide gaps of missing information and has enhanced the understanding of a wide spectrum of plant–environment interactions by highlighting the complex pathways regulating biochemical reactions and cellular physiology under a particular set of conditions. This high throughput technique also plays a prominent role in combined analyses of plant metabolomics and other omics datasets. Plant metabolomics has opened a wide paradigm of opportunities for developing stress‐tolerant plants, ensuring better food quality and quantity. However, despite advantageous methods and databases, the technique has a few limitations, such as ineffective 3D capturing of metabolites, low comprehensiveness, and lack of cell‐based sampling. In the future, an expansion of plant–pathogen and plant–pest response towards the metabolite architecture is necessary to understand the intricacies of plant defence against invaders, elucidation of metabolic pathway operational during defence and developing a direct correlation between metabolites and biotic stresses. Our aim is to provide an overview of metabolomics and its utilities for the identification of biomarkers or key metabolites associated with biotic stress, devising improved diagnostic methods to efficiently assess pest and pathogen attack and generating improved crop varieties with the help of combined application of analytical and molecular tools.

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Section: Plant-fungus Interactionmentioning

confidence: 99%

Section: Metabolomic Fingerprinting During Biotic Stress On Plantsmentioning

confidence: 99%

Metabolomics‐driven investigation of plant defense response against pest and pathogen attack

Kumari,

Yagnik,

Gupta

et al. 2024

Physiologia Plantarum

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“…Reported investigations carried out in tomato indicated the involvement of the ketone benzoxazinones (BX) in resistance against the pathogenic fungus Setophaeria turcica (Arbona & Gómez-Cadenas, 2016). Currently, vegetable crops are also known to produce numerous specialized metabolites like benzoxazinoids (Garcia-Mier et al, 2019) in response to nematodes and pest herbivores and flavonoids such as C-glycosyl flavones, which are known as an active protectant against worms (Yan et al, 2017) and against…”

Section: Specialized Metabolitesmentioning

confidence: 99%

“…Table 4 shows that among vegetable crops, the highest number of specialized metabolites belong to the phenylpropanoid, flavonoid, alkaloid and terpenoid metabolic products (Ding et al, 2018; M. Li et al, 2020; Lobo et al, 2018; Lu et al, 2019; Rajput et al, 2019). Reported investigations carried out in tomato indicated the involvement of the ketone benzoxazinones (BX) in resistance against the pathogenic fungus Setophaeria turcica (Arbona & Gómez‐Cadenas, 2016). Currently, vegetable crops are also known to produce numerous specialized metabolites like benzoxazinoids (Garcia‐Mier et al, 2019) in response to nematodes and pest herbivores and flavonoids such as C‐glycosyl flavones, which are known as an active protectant against worms (Yan et al, 2017) and against Pratylenchus and Heterodera , which are nematodes prevalent in fruits and vegetable crops (Hol et al, 2013; Jones & Fosu‐Nyarko, 2014).…”

Section: Vegetable Crop Metabolitesmentioning

confidence: 99%

Disease diagnostic strategies and emerging analytical metabolomics techniques for waterborne microbial pathogens in vegetable crops—A critical review

et al. 2023

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A significant number of people around the world suffer from illnesses that are related to the consumption of unsafe vegetable crops. Early identification of waterborne microbial pathogens affecting vegetable crops can be an important step towards the control of disease. Microbial pathogens secrete extracellular metabolic volatiles or molecular biomarkers that affect the yield and quality of vegetable crops. These secreted compounds can be investigated using several applied analytical techniques, such as metabolomics, proteomics and other ‘omics’ tools. Currently, it is possible to use these approaches to characterize a broad range of specialized metabolites present in vegetable crops affected by waterborne and soilborne microbial pathogens. Such approaches may be used to determine molecular biomarkers, which can subsequently be exploited for the diagnosis of microbial pathogens that affect vegetable crops. Molecular biomarkers are involved in complex pathogenic biological processes involving mechanisms of pathogenesis and could be of great interest in the field of metabolomics. This review investigates disease diagnostic strategies and emerging analytical metabolomics techniques for waterborne microbial pathogens in vegetable crops. These will be vital in building comprehensive and more reliable data regarding the nature of secreted proteins and other specialized metabolites in vegetable crops and will lead to an increased understanding of the interactions between the host and pathogenic oomycetes, fungi, bacteria and viruses.

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“…Besides this, the Fhb7 gene has been studied and cloned, which provides a bright prospect for the development of wheat head blight resistance (He et al, 2018;Wang et al, 2020). In the interaction between wheat and F. graminearum (Dweba et al, 2017), plants use complex chemical defense mechanisms involved in metabolic adaptations (Feussner and Polle, 2015;Arbona and Gomez-Cadenas, 2016). Advances in analytical chemistry and high-throughput sequencing were used to acquire extensive metabolic profiles during plant-pathogen (Beccari et al, 2019;Chen et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

Table_2.XLSX

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Metabolomics of Disease Resistance in Crops

Cited by 16 publications

References 140 publications

Metabolomics‐driven investigation of plant defense response against pest and pathogen attack

Metabolomics‐driven investigation of plant defense response against pest and pathogen attack

Disease diagnostic strategies and emerging analytical metabolomics techniques for waterborne microbial pathogens in vegetable crops—A critical review

Table_2.XLSX

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