Kaolin particle film application stimulates photoassimilate synthesis and modifies the primary metabolome of grape leaves

Water scarcity is associated with extreme temperatures and high irradiance, and significantly and increasingly affects grapevine yield and quality. In this context, the foliar application of kaolin, a chemically inert mineral that greatly reflects ultraviolet and infrared radiations, as well as, in...

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Bibliographic Details
Published in:Journal of plant physiology 2018-04, Vol.223, p.47-56
Main Authors: Conde, Artur, Neves, Andreia, Breia, Richard, Pimentel, Diana, Dinis, Lia-Tânia, Bernardo, Sara, Correia, Carlos Manuel, Cunha, Ana, Gerós, Hernâni, Moutinho-Pereira, José
Format: Article
Language:English
Subjects:
Amino acids
Biosynthesis
Carbohydrate metabolism
Carbohydrates
Chemical synthesis
Drought
Enzymatic activity
Enzymes
Erythritol
Foliar applications
Fructose
Glucose
Glycerol
Grapevine
Hexose
Irradiance
Kaolin
Leaf
Leaves
Maltose
Mannose
Metabolism
Metabolomics
Molecular modelling
Organic acids
Organic chemistry
Organs
Phosphates
Photoassimilates
Photoinhibition
Photosynthetically active radiation
Polyols
Primary metabolome
Ribose
Sophorose
Starch
Stress mitigation
Sucrose
Sucrose metabolism
Sucrose phosphate synthase
Sucrose transport
Sugar
Transcription
Transcription factors
Transport
Ultraviolet radiation
Water scarcity
Xylitol
Xylose
Xylulose
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Summary:Water scarcity is associated with extreme temperatures and high irradiance, and significantly and increasingly affects grapevine yield and quality. In this context, the foliar application of kaolin, a chemically inert mineral that greatly reflects ultraviolet and infrared radiations, as well as, in part, photosynthetically active radiation, has recently been shown to decrease photoinhibition in mature leaves. Here, the influence of this particle film on grapevine leaf metabolome and carbohydrate metabolism was evaluated. Molecular mechanisms underlying photoassimilate synthesis, metabolism and transport capacity were assessed by targeted transcriptional analyses and enzymatic activity assays. Kaolin application increased sucrose concentration in leaves and sucrose transport/phloem loading capacity, as suggested by the stimulation of the transcription of sucrose transporters VvSUC12 and VvSUC27 in these source organs. While the biosynthesis of sucrose increased, as evidenced by higher sucrose content and sucrose phosphate synthase (SPS) activity in leaves, the concentration of transitory starch before the dark period remained unaltered, despite a higher total amylolytic activity in the leaves of kaolin-treated plants. Metabolomic analysis by GC-TOF-MS showed that the application of kaolin enhanced the amounts of simple sugars, including fructose, maltose, xylulose, xylose, sophorose, ribose and erythrose; sugars-phosphate, like mannose-6-Pi, hexose-6-Pi, glucose-6-Pi, glucose-1-Pi, glycerol-α-Pi and fructose-6-Pi; polyols, like xylitol, maltitol, lactitol, glycerol, galactinol and erythritol; organic acids and amino acids.
ISSN:0176-1617
1618-1328
DOI:10.1016/j.jplph.2018.02.004