Daniel Maag
Daniel Maag
Bestätigte E-Mail-Adresse bei - Startseite
Zitiert von
Zitiert von
Defensive weapons and defense signals in plants: some metabolites serve both roles
D Maag, M Erb, TG Köllner, J Gershenzon
BioEssays 37 (2), 167-174, 2015
Biosynthesis of 8-O-Methylated Benzoxazinoid Defense Compounds in Maize
V Handrick, CAM Robert, KR Ahern, S Zhou, RAR Machado, D Maag, ...
The Plant Cell 28 (7), 1682-1700, 2016
Highly localized and persistent induction of Bx1‐dependent herbivore resistance factors in maize
D Maag, A Köhler, CAM Robert, M Frey, JL Wolfender, TCJ Turlings, ...
The Plant Journal 88 (6), 976-991, 2016
3-β-D-Glucopyranosyl-6-methoxy-2-benzoxazolinone (MBOA-N-Glc) is an insect detoxification product of maize 1, 4-benzoxazin-3-ones
D Maag, C Dalvit, D Thevenet, A Köhler, FC Wouters, DG Vassão, ...
Phytochemistry 102, 97-105, 2014
Gall volatiles defend aphids against a browsing mammal
M Rostás, D Maag, M Ikegami, M Inbar
BMC Evolutionary Biology 13, 1-12, 2013
Within‐plant distribution of 1, 4‐benzoxazin‐3‐ones contributes to herbivore niche differentiation in maize
A Köhler, D Maag, N Veyrat, G Glauser, JLUC WOLFENDER, ...
Plant, cell & environment 38 (6), 1081-1093, 2015
Maize domestication and anti-herbivore defences: leaf-specific dynamics during early ontogeny of maize and its wild ancestors
D Maag, M Erb, JS Bernal, JL Wolfender, TCJ Turlings, G Glauser
PloS one 10 (8), e0135722, 2015
Metabolomics in plant–herbivore interactions: challenges and applications
D Maag, M Erb, G Glauser
Entomologia Experimentalis et Applicata 157 (1), 18-29, 2015
Trichoderma atroviride LU132 promotes plant growth but not induced systemic resistance to Plutella xylostella in oilseed rape
D Maag, DRW Kandula, C Müller, A Mendoza-Mendoza, SD Wratten, ...
BioControl 59, 241-252, 2014
The spitting image of plant defenses: Effects of plant secondary chemistry on the efficacy of caterpillar regurgitant as an anti‐predator defense
GA Desurmont, A Köhler, D Maag, D Laplanche, H Xu, J Baumann, ...
Ecology and evolution 7 (16), 6304-6313, 2017
Monitoring rapid evolution of plant populations at scale with Pool-Sequencing
L Czech, Y Peng, JP Spence, PLM Lang, T Bellagio, J Hildebrandt, ...
bioRxiv, 2022.02.02.477408, 2022
25 Years of thermomorphogenesis research: milestones and perspectives
M Quint, C Delker, S Balasubramanian, M Balcerowicz, JJ Casal, ...
Trends in Plant Science, 2023
Natural variation of warm temperature‐induced raffinose accumulation identifies TREHALOSE‐6‐PHOSPHATE SYNTHASE 1 as a modulator of thermotolerance
N Reichelt, A Korte, M Krischke, MJ Mueller, D Maag
Plant, Cell & Environment, 2023
S1 basic leucine zipper transcription factors shape plant architecture by controlling C/N partitioning to apical and lateral organs
P Kreisz, AM Hellens, C Fröschel, M Krischke, D Maag, R Feil, ...
Proceedings of the National Academy of Sciences 121 (7), e2313343121, 2024
AFC kinases function as thermosensors that regulate warm temperature-responsive growth in Arabidopsis
B Roehl, F Ostwaldt, J Baesmann, P Hausmann, P Kreisz, M Krischke, ...
bioRxiv, 2024.06. 21.600040, 2024
Natural variation of warm temperature-induced raffinose accumulation identifies TREHALOSE-6-PHOSPHATE SYNTHASE 1 as a modulator of thermotolerance
N Reichelt, A Korte, M Krischke, MJ Mueller, D Maag
bioRxiv, 2023.05.15.540763, 2023
Plant responses to endophytic fungi and their effects on herbivorous insects
M Rostas, M Raad, D Maag, M Cripps, P Silcock, DRW Kandula, C Müller, ...
1,4-Benzoxazin-3-ones at the metabolic interface between plants and insects
D Maag
University of Geneva, 2016
Differences in 1, 4-benzoxazin-3-one profile and induction during growth of young maize affect foraging patterns of leaf herbivores.
D Maag, A Köhler, G Glauser, M Erb, JL Wolfender, TCJ Turlings
Effects of a rhizospheric biocontrol fungus on plant growth and above-ground herbivore defence
D Maag, DRW Kandula, C Muller, SD Wratten, A Stewart, M Rostas
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