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Andrea Pitzschke
Researcher at University of Natural Resources and Life Sciences, Vienna
Publications - 37
Citations - 4846
Andrea Pitzschke is an academic researcher from University of Natural Resources and Life Sciences, Vienna. The author has contributed to research in topics: Protein kinase A & Arabidopsis. The author has an hindex of 23, co-authored 37 publications receiving 4333 citations. Previous affiliations of Andrea Pitzschke include University of Salzburg & Ludwig Maximilian University of Munich.
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MAPK cascade signalling networks in plant defence
TL;DR: The most recent insights into MAPK-mediated pathogen defence response regulation are described with a particular focus on the cascades involving MPK3, MPK4 and MPK6.
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Emerging MAP kinase pathways in plant stress signalling.
TL;DR: A surprisingly large number of genes encoding MAPK pathway components have been uncovered by analysing model plant genomes, suggesting that MAPK cascades are abundant players of signal transduction.
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Reactive oxygen species signaling in plants.
TL;DR: Novel insights into the mechanisms of how plants sense and respond to ROS are discussed in the context of the biological effects and functions of ROS in plants.
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Seven Lotus japonicus genes required for transcriptional reprogramming of the root during fungal and bacterial symbiosis.
Catherine Kistner,Thilo Winzer,Andrea Pitzschke,Lonneke Mulder,Shusei Sato,Takakazu Kaneko,Satoshi Tabata,Niels Sandal,Jens Stougaard,K. Judith Webb,Krzysztof Szczyglowski,Martin Parniske +11 more
TL;DR: A combined genetic and transcriptome analysis was performed to study the molecular basis of the arbuscular mycorrhiza (AM) symbiosis and found that AM fungus-induced gene repression appeared to be unaffected in mutant backgrounds, which indicates the presence of additional independent signaling pathways.
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New insights into an old story: Agrobacterium- induced tumour formation in plants by plant transformation
TL;DR: A highly complex molecular choreography under the direction of the Vir proteins that impinge on multiple processes including transport, transcription, and chromosome status of their host cells is revealed.