Le cluster Jonathan Gershenzon - Sybille B. Unsicker
000002 (2020) | Franziska Eberl [Allemagne] ; Maite Fernandez De Bobadilla [Allemagne] ; Michael Reichelt [Allemagne] ; Almuth Hammerbacher [Afrique du Sud] ; Jonathan Gershenzon [Allemagne] ; Sybille B. Unsicker [Allemagne] | Herbivory meets fungivory: insect herbivores feed on plant pathogenic fungi for their own benefit. |
000007 (2019) | Chhana Ullah [Allemagne] ; Chung-Jui Tsai [États-Unis] ; Sybille B. Unsicker [Allemagne] ; Liangjiao Xue [République populaire de Chine] ; Michael Reichelt [Allemagne] ; Jonathan Gershenzon [Allemagne] ; Almuth Hammerbacher [Afrique du Sud] | Salicylic acid activates poplar defense against the biotrophic rust fungus Melampsora larici-populina via increased biosynthesis of catechin and proanthocyanidins. |
000013 (2018) | Franziska Eberl [Allemagne] ; Erica Perreca [Allemagne] ; Heiko Vogel [Allemagne] ; Louwrance P. Wright [Allemagne, Afrique du Sud] ; Almuth Hammerbacher [Allemagne, Afrique du Sud] ; Daniel Veit [Allemagne] ; Jonathan Gershenzon [Allemagne] ; Sybille B. Unsicker [Allemagne] | Rust Infection of Black Poplar Trees Reduces Photosynthesis but Does Not Affect Isoprene Biosynthesis or Emission. |
000017 (2018) | Franziska Eberl [Allemagne] ; Almuth Hammerbacher [Allemagne] ; Jonathan Gershenzon [Allemagne] ; Sybille B. Unsicker [Allemagne] | Leaf rust infection reduces herbivore-induced volatile emission in black poplar and attracts a generalist herbivore. |
000025 (2017) | Chhana Ullah [Allemagne] ; Sybille B. Unsicker [Allemagne] ; Christin Fellenberg [Canada] ; C Peter Constabel [Canada] ; Axel Schmidt [Allemagne] ; Jonathan Gershenzon [Allemagne] ; Almuth Hammerbacher [Afrique du Sud] | Flavan-3-ols Are an Effective Chemical Defense against Rust Infection. |
000003 (2020) | Guo Wei [États-Unis] ; Franziska Eberl [Allemagne] ; Xinlu Chen [États-Unis] ; Chi Zhang [États-Unis] ; Sybille B. Unsicker [Allemagne] ; Tobias G. Köllner [Allemagne] ; Jonathan Gershenzon [Allemagne] ; Feng Chen [États-Unis] | Evolution of isoprenyl diphosphate synthase-like terpene synthases in fungi. |
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