Vanessa Volz scite author profile

Vanessa Volz

2Publications

12Citation Statements Received

57Citation Statements Given

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Affiliations

Cluster of Excellence on Plant Sciences, University of Cologne

Publications

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Shoot-root interaction in control of camalexin exudation in Arabidopsis

Kopřivová

Schwier

Volz

2023

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Plants exude secondary metabolites from the roots to shape the composition and function of their microbiome. Many of these compounds are known for their anti-microbial activity and are part of the plant immunity, such as the indole-derived phytoalexin camalexin. Here we studied the dynamics of camalexin synthesis and exudation upon induction of Arabidopsis thaliana with a plant growth promotion bacteria Pseudomonas sp. CH267 or a bacterial pathogen Burkholderia glumae PG1. We show that while the camalexin accumulation and exudation is more rapidly but transiently induced upon interaction with the growth promoting strain, the pathogen induces a higher and more stable camalexin levels. By combination of experiments with cut shoots and roots and grafting of wild type plant with mutants in camalexin synthesis we showed that while camalexin can be produced and released by both organs, in intact plant the exuded camalexin originates in the shoots. We also reveal that the root specific CYP71A27 affects specifically the outcome of interaction with plant growth promoting bacteria and that its transcript levels are controlled by a shoot derived signal. In conclusion, camalexin synthesis seems to be controlled on a whole plant level and coordinated between shoots and roots.

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Shoot-root interaction in control of camalexin exudation in Arabidopsis

Kopřivová

Volz

2020

Preprint

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Plants exude secondary metabolites from the roots to shape the composition and function of their microbiome. Many of these compounds are known for their anti-microbial activity and are part of the plant immunity, such as the indole-derived phytoalexin camalexin. Here we studied the dynamics of camalexin synthesis and exudation upon induction of Arabidopsis thaliana with a plant growth promotion bacteria Pseudomonas sp. CH267 or a bacterial pathogen Burkholderia glumae PG1. We show that while the camalexin accumulation and exudation is more rapidly but transiently induced upon interaction with the growth promoting strain, the pathogen induces a higher and more stable camalexin levels. The concentration of camalexin in shoots, roots and exudates is well correlated, triggering a question on the origin of the exuded camalexin. By combination of experiments with cut shoots and roots and grafting of wild type plant with mutants in camalexin synthesis we showed that while camalexin can be produced and released by both organs, in intact plant the exuded camalexin originates in the shoots. We show that camalexin synthesis in response to B. glumae PG1 is dependent on cooperation of four CYP71 genes and a loss of function of any of them reduces camalexin synthesis. In conclusion, camalexin synthesis seems to be controlled on a whole plant level and coordinated between shoots and roots.

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Vanessa Volz

Shoot-root interaction in control of camalexin exudation in Arabidopsis

Shoot-root interaction in control of camalexin exudation in Arabidopsis

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