Abstract
Plants are constantly under attack from a variety of microorganisms, and rely on a series of complex detection and response systems to protect themselves from infection. Here, we found that a by-product of glutamate fermentation triggered defense responses in grapevine, increasing the expression of defense response genes in cultured cells, foliar chitinase activity, and resistance to infection by downy mildew in leaf explants. To identify the molecule that triggered this innate immunity, we fractionated and purified candidates extracted from Corynebacterium glutamicum, a bacterium used in the production of amino acids by fermentation. Using hydrolysis by lysozyme, a silkworm larva plasma detection system, and gel filtration analysis, we identified peptidoglycan as inducing the defense responses. Peptidoglycans of Escherichia coli, Bacillus subtilis, and Staphylococcus aureus also generated similar defensive responses.
MeSH terms
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Bacillus subtilis / metabolism
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Chitinases / genetics
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Chitinases / immunology
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Chitinases / metabolism
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Complex Mixtures / chemistry
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Corynebacterium glutamicum / metabolism
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Escherichia coli / metabolism
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Fermentation
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Gene Expression Regulation, Plant / immunology*
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Glutamic Acid / metabolism
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Peptidoglycan / biosynthesis
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Peptidoglycan / isolation & purification
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Peptidoglycan / pharmacology*
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Peronospora / growth & development
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Peronospora / pathogenicity
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Plant Diseases / genetics
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Plant Diseases / immunology*
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Plant Immunity / drug effects
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Plant Immunity / genetics
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Plant Leaves / drug effects
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Plant Leaves / genetics*
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Plant Leaves / immunology
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Plant Proteins / genetics
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Plant Proteins / immunology*
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Plant Proteins / metabolism
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Staphylococcus aureus / metabolism
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Vitis / drug effects
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Vitis / genetics*
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Vitis / immunology
Substances
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Complex Mixtures
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Peptidoglycan
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Plant Proteins
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Glutamic Acid
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Chitinases
Grants and funding
The authors received no specific funding for this work.