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Bienvenue sur la collection HAL de l'équipe ResPom de l'IRHS
Direction | Marie-Noëlle BRISSET
Référent·e·s HAL | Hélène MURANTY
Fichiers
11
Références
15
Proportion d'Open Access
42 %
Mots-Clés
Evolution
Biosynthesis
Proteases
Phylogeny
Phenolamides
Rutin
Phenolics
Tomato
Protection
VOC
Ortho-hydroxylase
Antioxidant activity
Cytotoxicity
Pomaces
Plant defence
Hydroxycinnamic acid
Growth
Cultivars
Hydroxy fatty acids
Cytochrome P450
Wild olive
Micro-Tom
Minerals
Coumarin
Flavonoids
Biodiversity
Defense
Nitrogen limitation
Solanum lycopersicum cv Santa clara
Anti-inflammatory
Plant volatilome
Solanum lycopersicum L
Opuntia ficus-indica
Secondary metabolites
Fatty acids
Adaptation to the environment
Seeds
Furanocoumarin
Kaempferol rutinoside
Volatile organic compounds
HPLC-MSn
Rubberplant
Polyphenol oxidase
LC–MSn
Virgin olive oil
Antixenosis
Trichomes
Adaptation au milieu
Minéraux
Cutin
Haemolysis activity
Latex
Tuta absoluta
Phenolamide
Sandre biomolécules végétales bien-être aquaponie
Negative feedback
South American tomato pinworm
Cross responses
Integral control
Plant growth
Tomatine
Monooxygenase
Défense contre les pathogènes
Volatile organic compound
Larvae
Starch
Composition
Biovalorization
Phenolic compounds
Plant-insect interactions
Defence
Apple
Cellular structures
Juniperus oxycedrus
Métabolite secondaire des végétaux
Chlorogenic acid
Protein
Root bark
Sucrose homeostasis
Ficus
Phenolic pathway
Nitrate availability
Protéine
Solanum lycopersicum
Mécanisme de défense de la plante
Interactions
Apple scab
Day-length measurement
Structure cellulaire
Dernières parutions
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Komla Exonam Amegan, Yasmine Fourati, Sylvia Del-Valle, Sylvia Salgon, Paola Ferrante, et al.. Joint effects of inter-specific and intra-specific diversity of tomato volatile profiles on antixenosis against Tuta absoluta. Entomologia Generalis, 2024, pp.1-13. ⟨10.1127/entomologia/2024/2399⟩. ⟨hal-04557514⟩
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Matthieu Gaucher, Anthony Juillard, Bao-Huynh Nguyen, Noémie Viller, Cédric Ernenwein, et al.. Formulated hydroxy fatty acids from fruit pomaces reduce apple scab development caused by Venturia inaequalis through a dual mode of action. Frontiers in Plant Science, 2024, 14, ⟨10.3389/fpls.2023.1322638⟩. ⟨hal-04571445⟩
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Romain Larbat, Christophe Robin, Cathrine Lillo, Tormod Drengstig, Peter Ruoff. Modeling the diversion of primary carbon flux into secondary metabolism under variable nitrate and light/dark conditions. Journal of Theoretical Biology, 2016, 402, pp.144-157. ⟨10.1016/j.jtbi.2016.05.008⟩. ⟨hal-01477462⟩