Département Écologie sensorielle "EcoSens" - iEES Paris

sensille olfactive

 

Les sens dits « chimiques », l’olfaction et la gustation, sont essentiels aux animaux pour interagir entre eux, interpréter leur environnement ou s’adapter à de nouvelles niches écologiques. Les insectes représentent des modèles de choix pour appréhender les bases moléculaires et neurobiologiques de ces sens et leurs rôles à l’échelle des individus et des populations.

Ainsi, les objectifs généraux du département sont de comprendre comment les insectes perçoivent leur environnement chimique et comment les variations phénotypiques et génotypiques leur permettent d’adapter leur comportement à un environnement complexe et changeant, à des échelles de temps allant de la plasticité phénotypique aux changements évolutifs.

Le département intègre toutes les dimensions de la communication chimique chez les insectes, développant des approches du gène au comportement tout en prenant en compte l’écosystème, ceci dans un contexte adaptatif.

 
 
Larva of the Egyptian cotton leafworm Spodoptera littoralis
Larva of the Egyptian cotton leafworm Spodoptera littoralis
M. Renou©UMR7618

 

Nos travaux visent à :

  • Etudier le paysage chimique et en extraire les signaux pertinents pour les insectes,
 
  • Décrypter les mécanismes de la réception de ces signaux par les organes périphériques (antenne, trompe…),
  • Comprendre leur intégration par le système nerveux central,
  • Analyser leurs effets sur les comportements des insectes dans leur relations intra- et interspécifiques au sein d’un environnement olfactif complexe et changeant.

Le département rassemble, sur un objet modèle commun, un ensemble unique d’approches et de savoir-faire complémentaires, alliant bioinformatique, génomique fonctionnelle, génétique moléculaire, biochimie, physico-chimie, neuroanatomie, imagerie, électrophysiologie, éthologie et modélisation, autorisant les approches du gène au champ, du neurone au modèle biophysique, de l’individu aux populations.

Enfin, l’utilisation de modèles ravageurs des cultures nous permet d’avoir un équilibre entre recherche fondamentale et appliquée, en proposant des solutions pour la lutte contre les insectes ravageurs.

Ce département est composé de deux équipes qui appréhendent conjointement l’adaptation sensorielle des animaux à leur environnement, chacune à son niveau :

l’équipe CRéA se focalise sur les étapes amont de la chimioréception (signaux, réception et dégradation) et
l’équipe NEO se concentre sur le codage olfactif (transduction et intégration cérébrale) et le comportement d’orientation de l’insecte dans son environnement chimique complexe.

Équipes du département "EcoSens"

Actualités du département

Publications du département

Ne concerne que les publications de 2017 à aujourd’hui. Pour voir toutes les publications dirigez-vous vers la page Publications.

RéférenceLiensJournalEquipes et départements
​Force E.~, Couzi P.*, Dacher M.*, Debernard S.* (2023), Diet Impacts the Reproductive System’s Maturation in the Male Moth Agrotis ipsilon (Noctuidae, Lepidoptera), J Insect Physiol, 148:104532.
https://doi.org/10.1016/j.jinsphys.2023.104532
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J Insect PhysiolNeOEcoSens
Li Z.~, Capoduro R.^, Zhang S.~, Sun D., Lucas P.*, Dabir-Moghaddam D.^, François M.C.*, Liu Y., Wang G., Jacquin-Joly E.*, Montagné N.*, Meslin M.*(2023) A tale of two copies: evolutionary trajectories of moth pheromone receptors. Proc Natl Acad Sci USA 120 (20)https://doi.org/10.1073/pnas.2221166120
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Proceedings of the National Academy of Sciences of the United States of AmericaCReAEcoSens ; NeOEcoSens
​​​​​​​​​​​​​​​Aguilar P., Bourgeois T., Maria A.*, Couzi P.*, Demondion E., Bozzolan F.*, Gassias E., Force E.~​, Debernard S.* (2023), Methoprene-tolerant and Krüppel homolog 1 are actors of juvenile hormone-signaling controlling the development of male sexual behavior in the moth Agrotis ipsilon, Horm Behav, 150:105330https://doi.org/10.1016/j.yhbeh.2023.105330
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Horm BehavNeOEcoSens
​Gauthier J., Meier J., Legeai F., McClure M, Whibley A., Bretaudeau A., Boulain H., Parrinello H., Mugford S.T., Durbin R., Zhou C., McCarthy S., Wheat C.W., Piron-Prunier F., Monsempes C*, François M.C.*, Jay P., Noûs C., Persyn E.~, Jacquin-Joly E.*, Meslin C.*, Montagné N.*, Lemaitre C. & Elias M. (2022) First chromosome scale genomes of ithomiine butterflies (Nymphalidae: Ithomiini): comparative models for mimicry genetic studies. Molecular Ecology Resources (in press)10.1111/1755-0998.13749molecular ecology resourcesCReAEcoSens
Zheng Y.~,  Cabassa-Hourton C.*,  Planchais S.*,  Crilat E.*,  Clément G., Dacher M.*,  Durand N.~, Bordenave-Jacquemin M.*, Guivarc’h A.*, Dourmap C.~,  Carol P.*, Lebreton S.*, Savouré A.* (2022). Pyrroline-5-carboxylate dehydrogenase is an essential enzyme for proline dehydrogenase function during dark-induced senescence in Arabidopsis thaliana. Plant Cell and Environment. Online ahead of print.​10.1111/pce.14529
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Plant Cell and EnvironmentAPCEIPE ; NeOEcoSens
​Bagni T.~, Siaussat D.*, Maria A.*, Couzi P.*, Maïbèche M.*, Massot M.* (2022) The impact of temperature on insecticide sensitivity depends on transgenerational effects. Science of the Total Environment, 851: 15814010.1016/j.scitotenv.2022.158140
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Science of the total environmentCReAEcoSens
​Vandroux P.°, Li Z.~, Capoduro R.^, François M-C.*, Renou M.*, Montagné N.*, Jacquin-Joly E.* (2022) Activation of pheromone-sensitive olfactory neurons by plant volatiles in the moth Agrotis ipsilon does not occur at the level of the pheromone receptor protein. Front. Ecol. Evol., 10:103525210.3389/fevo.2022.1035252Frontiers in Ecology and EvolutionCReAEcoSens ; NeOEcoSens
Charberet S.~, Maria A.*, Siaussat D.*, Gounand I.*, and Mathieu J.* (2022) Feeding and growth variation affectdelta13C and delta 15N budgets during ontogeny in a lepidopterian larva. bioRxiv pre-print10.1101/2022.11.09.515573v1bioRxivCReAEcoSens ; EERIDCFE
​Nieberding C.M., Beldade P., Baumlé V., Martin G.S., Arun A., Lognay G., Montagné N.*, Bastin-Héline L.~, Jacquin-Joly E.*, Noirot C., Klopp C., Visser B. (2022) Mosaic Evolution of Molecular Pathways for Sex Pheromone Communication in a Butterfly. Genes, 13: 137210.3390/genes13081372GeneCReAEcoSens
Renou M.* (2022) Is the evolution of insect odorscapes under anthropic pressures a risk for herbivorous insect invasions? Current Opinion in Insect Science. 52: 100926​10.1016/j.cois.2022.100926Current Opinion in Insect ScienceNeOEcoSens
​Meslin C.*, Mainet P.°, Montagné N.*, Robin S., Legeai F., Bretaudeau A., Johnston J.S., Koutroumpa F.^, Persyn E.~, Monsempès C.*, François M.C.*, Jacquin-Joly E.* (2022) Spodoptera littoralis genome mining brings insights on the dynamic of expansion of gustatory receptors in polyphagous noctuidae, G3 Genes|Genomes|Genetics, jkac13110.1093/g3journal/jkac131
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G3-Genes Genomes GeneticsCReAEcoSens
​Gonis, E., Fraichard, S., Chertemps, T.*, Hecker, A., Schwartz, M., Canon, F., & Neiers, F. (2022). Expression Patterns of Drosophila Melanogaster Glutathione Transferases. Insects, 13(7)10.3390/insects13070612
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insectsCReAEcoSens
​Koutroumpa, F.^, Monsempès, C.*, Anton, S., François, M.-C.*, Montagné, N.*, Jacquin-Joly, E.* (2022) Pheromone Receptor Knock-Out Affects Pheromone Detection and Brain Structure in a Moth. Biomolecules, 12, 34110.3390/biom12030341
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BiomoleculesCReAEcoSens
​​​De J, Chatterjee A*.​ (2021) Perception of Daily Time: Insights from the Fruit Flies. Insects. 2021 Dec 21;13(1):310.3390/insects13010003
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insectsNeOEcoSens
​Massot M.*, Bagni T.~, Maria A.*, Couzi P.*, Drozdz T.~, Malbert-Colas A.~, Maïbèche M.*, Siaussat D.* (2021) Combined influences of transgenerational effects, temperature and insecticide on the moth Spodoptera littoralis. Environmental Pollution, 289,11788910.1016/j.envpol.2021.117889
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Environmental PollutionCReAEcoSens
​Lucas P.*, Anton, S. (2021) Editorial: Invertebrate neurobiology: Sensory Systems, Information Integration, Locomotor- and Behavioral output. Front. Physiol. 12:80752110.3389/fphys.2021.807521
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Frontiers PhysiologyNeOEcoSens
Revadi S.V.^, Giannuzzi V.A., Rossi V., Hunger G.M, Conchou L.^, Rondoni G., Conti E., Anderson P., Walker W.B., Jacquin-Joly E.*, Koutroumpa F.^, Becher P.G. (2021) Stage-specific expression of an odorant receptor underlies olfactory behavioral plasticity in Spodoptera littoralis larvae. BMC Biol 19, 231.10.1186/s12915-021-01159-1​
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BMC BiologyCReAEcoSens
Piron-Prunier F., Persyn E.°, Legeai F., McClure M., Meslin C.*, Robin S., Alves-Carvalho S., Mohammad A., Blugeon C., Jacquin-Joly E.*, Montagné N.*, Elias M., Gauthier J. (2021) Comparative transcriptome analysis at the onset of speciation in a mimetic butterfly—The Ithomiini Melinaea marsaeus. Journal of Evolutionary Biology, 34: 1704–172110.1111/jeb.13940
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Journal of Evolutionary BiologyCReAEcoSens
​Marchant A., Mougel F., Jacquin-Joly E.*, Almeida C.E, Blanchet D., Bérenger J-M, da Rosa J.A., Harry M. (2021) Chemosensory gene expression for two close relative species Rhodnius robustus and R. prolixus (Hemiptera, Reduviidade, Triatominae) vectors of Chagas disease. Frontiers in Ecology and Evolution, 9:725504.10.3389/fevo.2021.725504
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Frontiers in Ecology and EvolutionCReAEcoSens
​Hilliou, F., Chertemps, T.*, Maibeche, M.*, & Le Goff, G. (2021). Resistance in the Genus Spodoptera: Key Insect Detoxification Genes. Insects, 12(6)10.3390/insects12060544
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insectsCReAEcoSens
Llopis-Giménez A., Caballero-Vidal G.~, Jacquin-Joly E.*, Crava C.M., Herrero S. (2021) Baculovirus infection affects caterpillar chemoperception. Insect Biochemistry and Molecular Biology, 138: 10364810.1016/j.ibmb.2021.103648
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INSECT BIOCHEMISTRY AND MOLECULAR
BIOLOGY
CReAEcoSens
​Gabalero-Vidal G.~, Bouysset C., Gévar J.*, Mbouzid H., Nara C., Delaroche J., Golebiowski J., Montagné N.*, Fiorucci S. and Jacquin-Joly E.* (2021) Reverse chemical ecology in a moth: machine learning on odorant receptors identifies new behaviorally active agonists. Cellular and Molecular Life Sciences10.1007/s00018-021-03919-2
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Cellular and Molecular Life SciencesCReAEcoSens
Hamidi R., Taupin P., Frérot B* (2021) Physiological Synchrony of the Broad Bean Weevil, Bruchus rufimanus Boh., to the Host Plant Phenology, Vicia faba L. Frontiers in Insect Science, 1:70732310.3389/finsc.2021.707323Frontiers in Insect ScienceCReAEcoSens
​Montagné N.*, Jager M., Chertemps T.*, Persyn E.^, Jaszczyszyn Y., Meslin C.*, Jacquin-Joly E.*, Manuel M. (2021). The chemosensory transcriptome of a diving beetle. Frontiers in Ecology and Evolution, 9: 77391510.3389/fevo.2021.773915
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Frontiers in Ecology and EvolutionCReAEcoSens
Parisot N., Vargas-Chávez C., Goubert C., Baa-Puyoulet P., Balmand S., Beranger L., Blanc C., Bonnamour A., Boulesteix M., Burlet N., Calevro F., Callaerts P., Chancy T., Charles H., Colella S., da Silva Barbosa A., Dell’aglio E., Di Genova A., Febvay G., Gabaldón T., Galvão Ferrarini M., Gerber A., Gillet B., Hubley R., Hughes S., Jacquin-Joly E.*, Maire J., Marcet-Houben M., Masson F., Meslin C*., Montagné N.*, Moya A., Ribeiro de Vasconcelos A. T., Richard G., Rosen J., Sagot M.-F., Smit A., Storer J., Vincent-Monégat C., Vallier A., Vigneron A., Zaidman-Remy A., Zamoum W., Vieira C., Rebollo R., Latorre A., Heddi A. (2021) The transposable element-rich genome of the cereal pest Sitophilus oryzae. BMC Biology, 19 (1): 24110.1186/s12915-021-01158-2
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BMC BiologyCReAEcoSens
Arnault I., Aveline N., Bardin M., Brisset M.N., Carriere J., Chovelon M., Delanoue G., Furet A., Frérot B., Lambion J., et al. (2021) SWEET -Optimisation des stratégies de biocontrôle par la stimulation de l’immunité des plantes avec des applications d’infra-doses de sucres simples. Innovations Agronomiques, 82:411-42310.15454/tysh-8×74
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Innovations AgronomiquesCReAEcoSens
Poivet E.~, Gallot A.^, Montagné N.*, Senin P., Monsempès C.*, Legeai F., Jacquin-Joly E.* (2021) Transcriptome Profiling of Starvation in the Peripheral Chemosensory Organs of the Crop Pest Spodoptera littoralis Caterpillars. Insects, 12, 57310.3390/insects12070573
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InsectsCReAEcoSens
​Ahn, S. J., Chertemps, T.*, Maibeche, M.*, Marygold, S. J., & Van Leeuwen, T. (2021). Editorial: Invertebrate UDP-Glycosyltransferases: Nomenclature, Diversity and Functions. Front Physiol, 12, 74829010.3389/fphys.2021.748290
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frontiers in physiologyCReAEcoSens
​Chertemps, T.*, Le Goff, G., Maibeche, M.*, & Hilliou, F. (2021). Detoxification gene families in Phylloxera: Endogenous functions and roles in response to the environment. Comp Biochem Physiol Part D Genomics Proteomics, 40, 10086710.1016/j.cbd.2021.100867
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comparative biochemistry and physiology part DCReAEcoSens
​Koutroumpa F^., Monsempes C.*, François M.C.*, Severac D., Montagné N.*, Meslin C.* and Jacquin-Joly E.* (2021) Description of chemosensory genes in unexplored tissues of the moth Spodoptera littoralis. Frontiers in Ecology and Evolution. 9: 67827710.3389/fevo.2021.678277
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Frontiers in Ecology and EvolutionCReAEcoSens
Frat L~, Chertemps T*, Pesce E, Bozzolan F*, Dacher M*, Planelló R, Herrero O, Llorente L, Moers D, Siaussat D*. Single and mixed exposure to cadmium and mercury in Drosophila melanogaster: Molecular responses and impact on post-embryonic development. Ecotoxicol Environ Saf. 2021 May 27;220:112377.10.1016/j.ecoenv.2021.112377
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ECOTOXICOLOGY AND ENVIRONMENTAL SAFETYCReAEcoSens ; NeOEcoSens
​Conchou, L^.; Lucas, P*.; Deisig, N*.; Demondion, E.*; Renou, M*. Effects of Multi-Component Backgrounds of Volatile Plant Compounds on Moth Pheromone Perception. Insects 2021, 12, 409.10.3390/insects12050409
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InsectsNeOEcoSens
​Haouzi, M., Gévar, J*., Khalil, A., & Darrouzet, E. (2021). Nest structures display specific hydrocarbon profiles: insights into the chemical ecology of the invasive yellow-legged hornet Vespa velutina nigrithorax. Chemoecology, 1-12. 10.1007/s00049-021-00343-7
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ChemoecologyCReAEcoSens ; NeOEcoSens
Gonzalez F., Johny J., Walker III W.B., Guan Q., Mfarrej S., Jakše J., Montagné N.*, Jacquin‑Joly E.*, Alqarni A.A., Al‑Saleh M.A., Pain A. & Antony B.(2021). Antennal transcriptome sequencing and identification of candidate chemoreceptor proteins from an invasive pest, the American palm weevil, Rhynchophorus palmarum. Scientific Reports, 11:8334,10.1038/s41598-021-87348-y
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Scientific ReportsCReAEcoSens
Gassias E, Maria A*, Couzi P*, Demondion E*, Durand N, Bozzolan F*, Aguilar P, Debernard S*. (2021) Involvement of Methoprene-tolerant and Krüppel homolog 1 in juvenile hormone-signaling regulating the maturation of male accessory glands in the moth Agrotis ipsilon. Insect Biochem Mol Biol. 2021 May;132:103566.10.1016/j.ibmb.2021.103566INSECT BIOCHEMISTRY AND MOLECULAR
BIOLOGY
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​Rondoni, G., Roman, A., Meslin, C.*, Montagné, N.*, Conti, E., Jacquin-Joly, E.* (2021) Antennal Transcriptome Analysis and Identification of Candidate Chemosensory Genes of the Harlequin Ladybird Beetle, Harmonia axyridis (Pallas) (Coleoptera: Coccinellidae). Insects, 12: 20910.3390/insects12030209
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InsectsCReAEcoSens
Antony B., Johni J., Montagné N.*, Jacquin-Joly E.*, Capoduro R.^, Cali K., Persaud K., Al-Saleh M.A. Pain A. (2021)Pheromone receptor of the globally invasive quarantine pest of the palm tree, the red palm weevil (Rhynchophorus ferrugineus). Molecular Ecology, 30(9):2025-3910.1111/mec.15874Molecular EcologyCReAEcoSens
​Meslin, C.*, Bozzolan, F.*, Braman, V.°, Chardonnet, S.; Pionneau, C.; François, M.‐C.*, Severac, D.; Gadenne, C.; Anton, S., Maibèche, M.*, Jacquin-Joly E.*, Siaussat D.*  (2021) Sublethal Exposure Effects of the Neonicotinoid Clothianidin Strongly Modify the Brain Transcriptome and Proteome in the Male Moth Agrotis ipsilon. Insects 2021, 12, 152.10.3390/insects12020152
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InsectsCReAEcoSens
​RENOU, Michel* ; SORDELLO, Romain ; REYJOL, Yorick, La biologie de la conservation doit-elle prendre en compte les paysages odorants ?, Science Eaux & Territoires10.14758/SET-REVUE.2021.HS.03Science Eaux & TerritoiresNeOEcoSens
​Gauthier J., Boulain H., van Vugt J., Baudry L., Persyn E.°, Aury J.M., Noel B., Bretaudeau A., Legeai F., Warris S., Dubreuil G.; Duvic B., Escoubas J.M., Kremer N., Gayral P., Musset K., Josse T., Bigot D., Bressac C., Moreau S., Periquet G., Harry M., Montagné N.*, Boulogne I.^, Sabety-Azad M.°, Maïbèche M.*, Chertemps T.*, Hilliou F., Saussiat D.*, Amselem J., Luyten I., Capdevielle-Dulac C., Labadie K., Merlin B.L., Barbe V., de Boer J.G., Marbouty M., Cônsoli F.L., Dupas S., Hua Van A., Le Goff G., Bézier A., Jacquin-Joly E.*, Whitfield J.B., Vet L.E.M., Smid H.M., Kaiser-Arnault L., Koszul R., Huguet E., Herniou E.A. and Drezen J.M. (2021) Chromosomal scale assembly of parasitic wasp genome reveals symbiotic virus colonization. Communications Biology, 4:10410.1038/s42003-020-01623-8
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Communications BiologyCReAEcoSens
Renou, M. ​Mesurer le comportement olfactif des insectes.Insectes, 199:11-15InsectesNeOEcoSens
Murmu M.S.^, Hanoune J.°, Choi A.°, Bureau V.°, Renou M.*, Dacher M.*, Deisig N.*, Modulatory effects of pheromone on olfactory learning and memory in moths. Journal of Insect Physiology, J Insect Physiol 127, 104159.10.1016/j.jinsphys.2020.104159
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Journal of Insect PhysiologyNeOEcoSens
Guo M., Du L., Chen Q., Feng Y., Zhang J., Zhang X., Tian K., Cao S., Huang T., Jacquin-Joly E.*, Wang G., Liu Y. (2020) Odorant Receptors for Detecting Flowering Plant Cues are Functionally Conserved across Moths and Butterflies. Mol Biol Evol. Msaa30010.1093/molbev/msaa300
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Molecular Biology and EvolutionCReAEcoSens
Bagni T.~, Siaussat D.*, Maria A.*, Couzi P.*, Maïbèche M.*, Massot M.* (2020) A maternal effect influences sensitivity to chlorpyrifos pesticide in the pest moth Spodoptera littoralis. Ecotoxicology and Environmental Safety, 204: 11105210.1016/j.ecoenv.2020.111052
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ECOTOXICOLOGY AND ENVIRONMENTAL SAFETYCReAEcoSens
Rispe C., Legeai F., Nabity P.D., Fernández R., Arora A.K., Baa-Puyoulet P., Banfill C.R., Bao L., Barberà M., Bouallègue M., Bretaudeau A., Brisson J.A., Calevro F., Capy P., Catrice O., Chertemps T.*, Couture C., Delière L., Douglas A.E., Dufault-Thompson K., Escuer P., Feng H., Forneck A., Gabaldón T., Guigó R., Hilliou F., Hinojosa-Alvarez S., Hsiao Y., Hudaverdian S., Jacquin-Joly E.*, James E.B., Johnston S., Joubard B., Le Goff G., Le Trionnaire G., Librado P., Liu S., Lombaert E., Lu H., Maïbèche M.*, Makni M., Marcet-Houben M., Martínez-Torres D., Meslin C.*, Montagné N.*, Moran N.A., Papura D., Parisot N., Rahbé Y., Ribeiro Lopes M., Ripoll-Cladellas A., Robin S., Roques C., Roux P., Rozas J., Sánchez-Gracia A., Sánchez-Herrero J.F., Santesmasses D., Scatoni I., Serre R.F., Tang M., Tian W., Umina P.A., van Munster M., Vincent-Monégat C., Wemmer J., Wilson A.C.C., Zhang Y., Zhao C., Zhao J., Zhao S., Zhou X., Delmotte F. and Tagu D. (2020) The genome sequence of the grape phylloxera provides insights into the evolution, adaptation, and invasion routes of an iconic pest. BMC Biology, 18: 90 10.1186/s12915-020-00820-5
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BMC BiologyCReAEcoSens
​Malbert-Colas A.~, Drozdz T.~, Massot M.*, Bagni T.~, Chertemps T.*, Maria A.*, Maïbèche M.*, Siaussat D.* (2020) Effects of low concentrations of deltamethrin are dependent on developmental stages and sexes in the pest moth Spodoptera littoralis. Environmental Science and Pollution Research, 27: 41893-4190110.1007/s11356-020-10181-9
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Environmental Science and Pollution ResearchCReAEcoSens
Aviles A.~, Cordeiro A.°, Maria A.*, Bozzolan F.*, Boulogne I.^, Dacher M.*, Goutte A.°, Alliot F., Maibeche M.*, Massot M.*, Siaussat D.* (2020) Effects of DEHP on ecdysteroid pathway, sexual behaviour and offspring of the moth Spodoptera littoralis. Hormones Behav, 125: 104808.10.1016/j.yhbeh.2020.104808
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Hormone and BehaviourCReAEcoSens ; NeOEcoSens
Calatayud P.A.,Dupas S.,Frérot B.,Genestier G.,Ahuya P.,Capdevielle-Dulac C.,Le Ru B. (2020) Relationships of Reproductive Traits with the Phylogeny of the African Noctuid Stem Borers. International Journal of Insect Science, 8(1)10.4137/IJIS.S32481International Journal of Insect ScienceCReAEcoSens
Calatayud, P-A., Sauvion, N., Thiery D., Rebaudo F., Jacquin-Joly E.* (2020) “Plant-Insect Interactions.” In : Oxford Bibliographies in Ecology. Ed. David Gibson. New York: Oxford University Press. ​10.1093/obo/9780199830060-0193
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Oxford Bibliographies in EcologyCReAEcoSens
Llopis-Giménez A., Carrasco-Oltra T., Jacquin-Joly E.*, Herrero S., Crava C. (2020) Coupling Transcriptomics and Behaviour to Unveil the Olfactory System of Spodoptera exigua Larvae. Journal of Chemical Ecology, 46 (11-12): 1017-103110.1007/s10886-020-01224-z
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Journal of Chemical EcologyCReAEcoSens
Moghbeli Gharaei, A., Ziaaddini, M., Frérot, B.* et al. (2020) Identification and evaluation of four cucurbitaceous host plant volatiles attractive to Diaphania indica (Saunders) (Lep.: Pyralidae). Chemoecology 30: 173–18210.1007/s00049-020-00308-2ChemoecologyCReAEcoSens
Hamidi R., Frérot B.* (2020) Evidence for Long-range Mate Attraction Mediated By a Male-produced Sex Pheromone in Paysandisia archon (Lepidoptera: Castniidae). Journal of Insect Behavior, 33:97–104​10.1007/s10905-020-09752-yJournal of Insect BehaviorCReAEcoSens
​Pannequin R., Jouaiti M., Boutayeb M., Lucas P.*, Martinez D. (2020) Lab-on-cables: Automatic tracking of free-flying insects. Science Robotics 5(43):eabb2890.10.1126/scirobotics.abb2890
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Science RoboticsNeOEcoSens
​Pawson S. M., Kerr J. L., O’Connor B., Lucas P.*, Martinez D., Allison J. D., Strand T. M. (2020) Light weight portable electroantennography device as a future tool for applied chemical ecology. J. Chem. Ecol. 46 :557-566. 10.1007/s10886-020-01190-6
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Journal of Chemical EcologyNeOEcoSens
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Genome Biology and EvolutionCReAEcoSens
Renou M.*, Anton S. (2020) Insect olfaction in a complex and changing world. Current Opinion in Insect Science, 42:xx-yy.10.1016/j.cois.2020.04.004
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JOURNAL OF COMPARATIVE PHYSIOLOGY A- NEUROETHOLOGY SENSORY NEURAL AND BEHAVIORAL PHYSIOLOGYNeOEcoSens
​Toullec J.-Y., Cascella K., Ruault S., Geffroy A., Lorieux D., Montagné N.*, Ollivaux C. & Lee C.-Y. (2020) Antarctic krill (Euphausia superba) in a warming ocean: thermotolerance and deciphering Hsp70 responses. Cell Stress and Chaperones 25(3):519-3110.1007/s12192-020-01103-2
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Caballero-Vidal G.~, Bouysset C., Grunig H., Fiorucci S., Montagné N.*, Golebiowski J., and Emmanuelle Jacquin-Joly*. (2020) Machine learning decodes chemical features to identify novel agonists of a moth odorant receptor. Sci Reports, 10:165510.1038/s41598-020-58564-9
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Scientific ReportsCReAEcoSens
Hostachy C.^°, Couzi P.*, Portemer G.°, Hanafi M.°, Murmu M.^, Deisig N.*, Dacher M.* (2019)Exposure to conspecific and heterospecific sex-pheromones modulates gustatory habituation in the moth Agrotis ipsilon. Frontiers in Physiology, 10: 1518.10.3389/fphys.2019.01518
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Frontiers in PhysiologyNeOEcoSens
Bastin-Héline L.~, de Fouchier A.~, Cao S., Koutroumpa F.^, Caballero-Vidal G.~, Robakiewicz S.°, Monsempes C.*, François M.-C.*, Ribeyre T.°, de Cian A., Walker W.B., Wang G., Jacquin-Joly E.* & Montagné N.* (2019) A novel lineage of candidate pheromone receptors for sex communication in moths. eLife 8:e49826.​10.7554/eLife.49826
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Gassias E, Durand N^, Demondion E*, Bourgeois T*, Aguilar P, Bozzolan F*, Debernard S*. A critical role for Dop1-mediated dopaminergic signaling in the plasticity of behavioral and neuronal responses to sex pheromone in a moth.J Exp Biol. 2019 Nov 29;22210.1242/jeb.211979
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Journal of Experimental BiologyCReAEcoSens
Hostachy C.°^, Couzi P.*, Hanafi-Portier M.°, Portemer G.°, Halleguen A.°, Murmu M.^, Deisig N.*, Dacher M.*, 2019. Responsiveness to sugar solutions in the moth Agrotis ipsilon: parameters affecting proboscis extension. Frontiers in Physiology, 10: 1423.10.3389/fphys.2019.01423
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Frontiers in PhysiologyNeOEcoSens
Renou, M*, Les insectes ingénieurs. 5. Odeurs et biomimétisme. Insectes,195: 17-21.
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Cellular and Molecular Life SciencesCReAEcoSens
Wan F., Yin C., Tang R., Chen M., Wu Q., Huang C., Qian W., Rota-Stabelli O., Yang N., Wang S., Wang G. , Zhang G., Guo J., Gu L., Chen L., Xing L., Xi Y., Liu F., Lin K., Guo M., Liu W., He K., Tian R., Jacquin-Joly E.*, Franck P., Siegwart M., Ometto L., Anfora G., Blaxter M., Meslin C.*, Petr N., Dalíková M., Marec F., Olivares J., Maugin S.,  Shen J., Liu J., Guo J., Luo J., Liu B., Fan W., Feng L., Zhao X., Peng X., Wang K., Liu L., Zhan H., Liu W., Shi G., Jiang C., Jin J., Xian X., Lu S., Ye M., Li M., Yang M., Xiong R., Walters J.R., Li F ​ (2019) A chromosome-level genome assembly of the codling moth ( Cydia pomonella ) provides insights into its chemical ecology and insecticide resistance. Nature Communications, 10: 472710.1038/s41467-019-12175-9
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Nature CommunicationsCReAEcoSens
Machon J., Krieger J., Meth R., Zbinden M., Ravaux J., Montagné N.*, Chertemps T.* & Harzsch S. (2019) Neuroanatomy of a hydrothermal vent shrimp provides insights into the evolution of crustacean integrative brain centers. eLife 8:e47550.​10.7554/eLife.47550
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Conchou L. ^, Lucas P. *, Meslin C. *, Proffit M., Staudt M., Renou M. * (2019) Insect Odorscapes: From Plant Volatiles to Natural Olfactory Scenes.Front. Physiol. 10:972.10.3389/fphys.2019.00972
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Faucheux M., Hamidi R., Mercadal M., Thomas M., Frérot B.* (2019) Antennal sensilla of male and female of the nut weevil, Curculio nucum Linnaeus, 1758 (Coleoptera: Curculionidae). Annales de la Société Entomologique de France, 55 (5): 395-40910.1080/00379271.2019.1649093
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European Journal of EntomologyCReAEcoSens
Jacquin-Joly E.* (2019) L’odorat des insectes, vers de nouvelles solutions de biocontrôle des espèces invasives. Valeurs Vertes, 158: 17-18.Valeurs VertesCReAEcoSens
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Journal of The Royal Society InterfaceNeOEcoSens
McClure M., Mahrouche L., Houssin C., Monllor M., Le Poul Y., Frérot B.*, Furtos A., Elias M. (2019) Does divergent selection predict the evolution of mate preference and reproductive isolation in the tropical butterfly genus Melinaea (Nymphalidae: Ithomiini)? Journal of animal ecology,88(6):940-95210.1111/1365-2656.12975
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Journal of animal ecologyCReAEcoSens
​Hill, J., Rastas, P., Hornett, E. A., Neethiraj, R., Clark, N., Morehouse, N., de la Paz Celorio-Mancera, Cols, J. C., Dircksen, H., Meslin, C.*, Keehnen, Pruisscher, Sikkink, K., Vives, Vogel, H., Wiklund, Woronik, A., Boggs, C. L., Nylin, Wheat (2019). Unprecedented reorganization of holocentric chromosomes provides insights into the enigma of lepidopteran chromosome evolution. Science Advances, 5 (6), eaau3648. 10.1126/sciadv.aau3648
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Science AdvancesCReAEcoSens
Maria A.*, Malbert-Colas A~. Braman V.^, Dacher M.*, Chertemps T.*, Maïbèche M.*, Blais C.*, Siaussat D.* 2019 Effects of Bisphenol A on post-embryonic development of the cotton pest, Spodoptera littoralis. Chemosphere 235, 616-625.10.1016/j.chemosphere.2019.06.073
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Chapuy C.°~, Ribbens L., Renou M.*, Dacher M.*, Armengaud C. (2019) Thymol affects congruency between olfactory and gustatory stimuli in bees. Sci Rep, 9: 7752.10.1038/s41598-019-43614-8
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Scientific ReportsNeOEcoSens
Langlois L., Dacher M.*, Nugent F. (2018). Dopamine receptor activation is required for GABAergic spike timing-dependent plasticity in the ventral tegmental area. Front Syn Neurosci, 10: 32.​10.3389/fnsyn.2018.00032
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Frontiers in Synaptic NeuroscienceNeOEcoSens
Levakova M., Kostal L., Monsempès C. *, Jacob V. ^, Lucas P. * (2018) Moth olfactory receptor neurons adjust their encoding efficiency to temporal statistics of pheromone fluctuations. PLoS Comput. Biol. 14(11): e1006586.10.1371/journal.pcbi.1006586
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PLoS Computational BiologyNeOEcoSens
de Fouchier A.~, Sun X.^, Caballero-Vidal G.~, Travaillard S.°, Jacquin-Joly E.* & Montagné N.* (2018) Behavioral effect of plant volatiles binding to Spodoptera littoralis larval odorant receptors. Frontiers in Behavioral Neuroscience 12:264.​10.3389/fnbeh.2018.00264
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Aviles A. ~, Boulogne I.^, Durand N.^, Maria A.*, Cordeiro A.°, Bozzolan F.*, Goutte A., Alliot F., Dacher M.*, Renault D., Maïbèche M.*, Siaussat D.* 2019 Effects of DEHP on post-embryonic development, nuclear receptor expression, metabolite and ecdysteroid concentrations of the moth Spodoptera littoralis. Chemosphere 215, 725-738.                ​10.1016/j.chemosphere.2018.10.102
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Gassias E^, Durand N^, Demondion E*, Bourgeois T*, Bozzolan F*, Debernard S*.The insect HR38 nuclear receptor, a member of the NR4A subfamily, is a synchronizer of reproductive activity in a moth.FEBS J. 2018 Nov;285(21):4019-4040. 10.1111/febs.14648
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Durand N^, Pottier MA^, Siaussat D*, Bozzolan F*, Maïbèche M*, Chertemps T*. Glutathione-S-Transferases in the Olfactory Organ of the Noctuid Moth Spodoptera littoralis, Diversity and Conservation of Chemosensory Clades.FrontPhysiol.9:1283.  ​10.3389/fphys.2018.01283
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Frontiers in PhysiologyCReAEcoSens
Brom T.~, Massot M.*, Laloi D.* (2018)The sex chromosome system can influence the evolution of sex-biased dispersal. Journal of Evolutionary Biology, 31: 1377-1385 10.1111/jeb.13340
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Köblös G., François M-C.*, Monsempes C. *, Montagné N.*, Fónagy A. and Jacquin-Joly E.* (2018) Identification and molecular characterization of a pheromone receptor candidates in the cabbage armyworm Mamestra brassicae (Lepidoptera:Noctuidae). Journal of Insect Science, 18(5): 1-8. 10.1093/jisesa/iey090
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Journal of Insect ScienceCReAEcoSens
​Nallu, S., Hill, J. A., Don, K., Sahagun, C., Zhang, W., Meslin*, C., et al. (2018). The molecular genetic basis of herbivory between butterflies and their host plants. Nature Ecology & Evolution, 1.10.1038/s41559-018-0629-9
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Chatterjee A*, Lamaze A, De J, Mena W, Chélot E, Martin B, Hardin P, Kadener S, Emery P, Rouyer F.​ Reconfiguration of a Multi-oscillator Network by Light in the Drosophila Circadian Clock. Curr Biol. 2018 Jul 9;28(13):2007-2017.e4.
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current biologyNeOEcoSens
Machon J.~, Lucas P.*, Ravaux J., Zbinden M. (2018) Comparison of Chemoreceptive Abilities of the Hydrothermal Shrimp Mirocaris fortunata and the Coastal Shrimp Palaemon elegans. Chem Senses 7:489–501. 10.1093/chemse/bjy041
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Cui, W.C., Bing, W., Guo, M.B., Liu, Y., Jacquin-Joly, E.*, Yan, S.-C., Wang G. (2018) A receptor-neuron correlate for the detection of attractive plant volatiles in Helicoverpa assulta (Lepidoptera: Noctuidae). Insect Biochemistry and Molecular Biology, 97:31-3910.1016/j.ibmb.2018.04.006
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INSECT BIOCHEMISTRY AND MOLECULAR
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Diesner M., Gallot A.^, Binz H., Gaertner C.*, Vitecek. S.°, Kahnt J., Schachtner J., Jacquin-Joly E.* and Gadenne C. (2018) Mating-induced differential peptidomics of neuropeptides and protein hormones in Agrotis ipsilon moths. J Proteome Res. 17(4):1397-141410.1021/acs.jproteome.7b00779
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Hidalgo K,Montazeau C,Siaussat D*,Braman V^,Trabalon M,Simard F,Renault D,Dabiré RK,Mouline K.(2018). Distinct physiological, biochemical and morphometric adjustments in the malaria vectors Anopheles gambiae and A. coluzzii as means to survive dry season conditions in Burkina Faso. J Exp Biol. 2018 221(Pt 6). pii: jeb174433.10.1242/jeb.174433
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Journal of Experimental BiologyCReAEcoSens
Fodor J., Hull J.J., Köblös G., Jacquin-Joly E.*, Szlanka T., Fónagy A. (2018) Identification and functional characterization of the pheromone biosynthesis activating neuropeptide receptor isoforms from Mamestra brassicae. General and Comparative Endocrinology. 258:60-69.10.1016/j.ygcen.2017.05.024
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Jacob V. ^, Monsempès C. *, Rospars J.-P. *, Masson J.-B., Lucas P. * (2017) Olfactory coding in the turbulent realm. PLoS Comput. Biol. 13(12):e1005870. 10.1371/journal.pcbi.1005870
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Lavogez O.~, Pinier C.*, Nibouche S., Frérot B.* (2017) Volatile Compounds Release by the Hair Pencils in Male Prophantis smaragdina (Lepidoptera: Crambidae: Spilomelinae), Journal of Insect Science, 17: 12110.1093/jisesa/iex094
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Journal of Insect ScienceCReAEcoSens
Jacob V., Scolari F., Delatte H., Gasperi G., Jacquin-Joly E.*, Malacrida A.R., and Duyck P-F. (2017) Current source density mapping of antennal sensory selectivity reveals conserved olfactory systems between tephritids and Drosophila. Scientific Reports, 7(1):1530410.1038/s41598-017-15431-4
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Steiner C.~, Bozzolan F.*, Montagné N.*, Maïbèche M.*, Chertemps T. *2017. Neofunctionalization of “Juvenile Hormone Esterase Duplication” in Drosophila as an odorant-degrading enzyme towards food odorants.Sci Rep. 7(1):12629. ​10.1038/s41598-017-13015-w
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Scientific ReportsCReAEcoSens
d’Alençon E, Gouin A, Bretaudeau A, Nam K, Gimenez S, Aury JM, Duvic B, Hilliou F, Durand N^, Montagné N*, Darboux I, Kuwar S, Chertemps T*, Siaussat D*, Bretschneider A, Moné Y, Ahn S-J, Hänniger S, Gosselin Grenet A-S, Neunemann DMaumus F,Luyten I,Labadie K,Xu W,Koutroumpa F,Escoubas JM,Llopis A,Maïbèche-Coisne M*,Salasc F,Tomar A,Anderson AR,Khan SA,Dumas P,Orsucci M,Guy J,Belser C,Alberti A,Noel B,Couloux A,Mercier J,NideletS,Dubois E,Liu NY,Boulogne I,Mirabeau O,Le Goff G,Gordon K,Oakeshott J,Consoli FL,Volkoff AN,Fescemyer HW,Marden JH,Luthe DS,HerreroS,Heckel DG,Wincker P,Kergoat GJ,Amselem J,Quesneville H,Groot AT,Jacquin-Joly E*,Nègre N,Lemaitre C,Legeai F,d’Alençon E,Fournier P. (2017). Two genomes of highly polyphagous lepidopteran pests (Spodoptera frugiperda, Noctuidae) with different host-plant ranges.Scientific report7(1):11816.10.1038/s41598-017-10461-4
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Massot M*., Legendre S., Fédérici P*., Clobert J. 2017. Climate warming: a loss of variation in populations can accompany reproductive shifts. Ecol lett. 20: 1140-4710.1111/ele.12811
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Cheng T., Wu J., Wu Y., Chilukuri R., Huang L., Yamamoto K., Feng L., Li W., Chen Z., Guo H., Liu J., Li S., Wang X., Peng L., Liu D., Guo Y., Fu B., Li Z., Liu C., Chen Y., Tomar A., Hilliou F., Montagné N.*, Jacquin-Joly E.*, d’Alençon E., Seth R., Bhatnagar R., Jouraku A., Shiotsuki T., Kadono-Okuda K., Promboon A., Smagghe G., Arunkumar K., Kishino H., Goldsmith M., Feng Q., Xia Q. & Mita K. (2017) Genomic adaptation to polyphagy and insecticides in a major East Asian noctuid pest. Nature Ecology and Evolution 1:1747-1756.​10.1038/s41559-017-0314-4
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Nature Ecology & EvolutionCReAEcoSens
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Gévar, J*., Bagnères, A. G., Christidès, J. P., Darrouzet, E. (2017). Chemical heterogeneity in inbred European population of the invasive hornet Vespa velutina nigrithorax. Journal of Chemical Ecology, 43(8), 763-777. 10.1007/s10886-017-0874-4
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Olsson S.B., Bhardwaj P.K., Brockmann A., Chandrashekara K., Gross J., Harari A., Hillier N.K., Jacquin-Joly E.*, Khesoh V., Lima E., Löfstedt C., Marion-Poll F., Mir B.A., Raguso R.A., Rai S., Sarkar M.P., Seenivasagan T., Shaankar R.U (2017) New Frontiers for Chemical Ecology: Reaffirming a Commitment to the Göteborg Resolution. Journal of Chemical Ecology, 43 (1): 2-3
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Cattaneo A. M., Gonzalez F., Bengtsson J. M., Corey E. A., Jacquin-Joly E.*, Montagné N.*, Salvagnin U., Ill W. B. W., Witzgall P., Anfora G., Bobkov Y. (2017). Candidate pheromone receptors of codling moth Cydia pomonella respond to pheromones and kairomones. Scientific Reports, 7: 4110510.1038/srep41105
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PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICACReAEcoSens
de Fouchier A.~, Walker W.B.,  Montagné N.*, Steiner C.~, Binyameen M., Schlyter F., Chertemps T.*, Maria A.*, François M.C.*, Monsempes C.*, Anderson P., Hansson B.S., Larsson M. C., Jacquin-Joly E.* (2017) Functional evolution of Lepidoptera olfactory receptors revealed by deorphanization of a moth repertoire. Nature Communications,  8: 15709 10.1038/ncomms15709
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Nature CommunicationsCReAEcoSens
Durand N^, Chertemps T*, Bozzolan F*, Maïbèche M*.(2017) Expression and modulation of neuroligin and neurexin in the olfactory organ of the cotton leaf worm Spodoptera littoralis. Insect Science 24(2):210-221. 10.1111/1744-7917.12312
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Insect ScienceCReAEcoSens
PEARCE S., CLARKE D., EAST P., ELFEKIH S., GORDON K., JERMIIN L., MCGAUGHRAN A., OAKESHOTT J., PAPANICOLAOU A., PERERA O., RANE R., RICHARDS S., TAY W., WALSH T., ANDERSON A., ANDERSON C., ASGARI S., BOARD P., BRETSCHNEIDER A., CAMPBELL P., CHERTEMPS T., CHRISTELLER J., COPPIN C., DOWNES S., DUAN G., FARNSWORTH C., GOOD R., HAN L., HAN Y., HATJE K., HORNE I., HUANG Y., HUGHES D., JACQUIN-JOLY E., JAMES W., JHANGIANI S., KOLLMAR M., KUWAR S., LI S., LIU N.-Y., MAIBECHE M., MILLER J., MONTAGNE N., PERRY T., QU J., SONG S., SUTTON G., VOGEL H., WALENZ B., XU W., ZHANG H.-J., ZOU Z., BATTERHAM P., EDWARDS O., FEYEREISEN R., GIBBS R., HECKEL D., MCGRATH A., ROBIN C., SCHERER S., WORLEY K., WU Y. (2017-08-15). Erratum to: Genomic innovations, transcriptional plasticity and gene loss underlying the evolution and divergence of two highly polyphagous and invasive Helicoverpa pest species. BMC Biology, 15 (1), 69https://doi.org/10.1186/s12915-017-0413-3
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BMC BiologyEcoSens
HAMIDI R., DE BISEAU J. C., BOURGUIGNON T., MARTINS SEGUNDO G. B., MARINHO BEZERRIL FONTENELLE M. T., QUINET Y. (2017). Dispersal strategies in the highly polygynous ant Crematogaster (Orthocrema) pygmaea Forel (Formicidae: Myrmicinae). PLoS ONE, 12 (6), nphttps://doi.org/10.1371/journal.pone.0178813
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PLoS ONEEcoSens

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Membres du département

Nom PrénomCorpsEmployeurDépartement et ÉquipeAdresseTéléphoneMél
BAGNI ThibautATERS-UÉquipe CReA du Département EcoSensCampus Pierre et Marie Curie – Paris 5e
Tour 44-45 – 3e étage – bureau : 306
thibaut.bagni@sorbonne-universite.fr
BHAMIDIPATI SrideviPost-doctoranteINRAEÉquipe CReA du Département EcoSensINRAE de Versailles
bâtiment 1 – RDC – bureau : 16B
sridevi.bhamidipati@inrae.fr
BOZZOLAN FrançoiseIES-UPôle technique du Département EcoSensCampus Pierre et Marie Curie – Paris 5e
Tour 44-45 – 3e étage – bureau : 318
(+33) 01-44-27-38-39francoise.bozzolan@upmc.fr
BRAJON LudvineDoctoranteUniv. Paris SaclayÉquipe CReA du Département EcoSensCampus Pierre et Marie Curie – Paris 5e
Tour 44-45 – 3e étage – bureau : 306
(+33) 01-44-27-60-52ludvine.brajon@sorbonne-universite.fr
CAPODURO RémiCDD IEINRAEÉquipe CReA du Département EcoSensCampus Pierre et Marie Curie – Paris 5e
Tour 44-45 – 3e étage – bureau : 320
(+33) 01-44-27-38-37remi.capoduro@sorbonne-universite.fr
CHATTERJEE AbhishekCRINRAEÉquipe NeO du Département EcoSensINRAE de Versailles
bâtiment 1 – Sous-sol étage – bureau : 17
(+33) 01-30-83-37-37abhishek.chatterjee@inrae.fr
CHERTEMPS ThomasMCS-UÉquipe CReA du Département EcoSensCampus Pierre et Marie Curie – Paris 5e
Tour 44-45 – 3e étage – bureau : 314
(+33) 01-44-27-38-37thomas.chertemps@upmc.fr
COUZI PhilippeTINRAEPôle technique du Département EcoSensCampus Pierre et Marie Curie – Paris 5e
Tour 44-45 – 3e étage – bureau : 320
philippe.couzi@inrae.fr
DACHER MatthieuMCS-UÉquipe NeO du Département EcoSensCampus Pierre et Marie Curie – Paris 5e
Tour 44-45 – 3e étage – bureau : 310
(+33) 01-44-27-65-87matthieu.dacher@upmc.fr
DEBERNARD StéphaneMCS-UÉquipe NeO du Département EcoSensCampus Pierre et Marie Curie – Paris 5e
Tour 44-45 – 3e étage – bureau : 308
(+33) 01-44-27-38-39stephane.debernard@sorbonne-universite.fr
FABRE CarolineCDD ChercheuseINRAE, MSCA fellowÉquipe NeO du Département EcoSensINRAE de Versailles
bâtiment 1 – RDC – bureau : 6C
caroline.fabre@inrae.fr
FORCE EvanDoctorantUniv. Paris-SaclayÉquipe NeO du Département EcoSensINRAE de Versailles
bâtiment 1 – RDC – bureau : 15
(+33) 01-44-27-65-87evan.force@universite-paris-saclay.fr
FRANCOIS Marie-ChristineTINRAEPôle technique du Département EcoSensINRAE de Versailles
bâtiment 1 – RDC – bureau : 11
(+33) 01-30-83-31-63marie-christine.francois@inrae.fr
FUENTES AnnabelleTS-UPôle technique du Département EcoSens ; Services communs du Département EcoSens ; Services communs du Département DCFE ; Services communs du Département ECOEVOCampus Pierre et Marie Curie – Paris 5e
Tour 44-45 – 3e étage – bureau : 308
(+33) 01-44-27-38-25anabelle.fuentes@upmc.fr
GHOSH SagnikDoctorantUniv. Paris-SaclayÉquipe NeO du Département EcoSensINRAE de Versailles
bâtiment 1 – RDC – bureau : 10
sagnik.ghosh@inrae.fr
GÉVAR JérémyIEINRAEPôle technique du Département EcoSensINRAE de Versailles
bâtiment 1 – RDC – bureau : 4
(+33) 01-30-83-31-59jeremy.gevar@inrae.fr
JACQUIN-JOLY EmmanuelleDRINRAEÉquipe CReA du Département EcoSensINRAE de Versailles
bâtiment 1 – RDC – bureau : 5B
(+33) 01-30-83-32-12emmanuelle.joly@inrae.fr
LECONTE AnjélicaDoctoranteAgroParisTechÉquipe NeO du Département EcoSensINRAE de Versailles
bâtiment 1 – RDC – bureau : 10C
(+33) 01-30-83-37-37anjelica.leconte@compagniedesamandes.com
LECOUVREUR FrançoisCDD IEINRAEÉquipe NeO du Département EcoSensINRAE de Versailles
bâtiment 1 – RDC – bureau : 8b
francois.lecouvreur@inrae.fr
LI ZiboDoctoranteUniv. Paris-SaclayÉquipe CReA du Département EcoSensINRAE de Versailles
bâtiment 1 – ground floor étage – bureau : office 19
lzbluckystar@yeah.net
LUCAS PhilippeDRINRAEÉquipe NeO du Département EcoSensINRAE de Versailles
bâtiment 1 – RDC – bureau : 10C
(+33) 01-30-83-37-37philippe.lucas@inrae.fr
MALBERT-COLAS AudeCDILabcom SBM DéveloppementÉquipe CReA du Département EcoSensCampus Pierre et Marie Curie – Paris 5e
Tour 44-45 – 3e étage – bureau : 306
(+33) 01-44-27-60-52aude.malbert-colas@upmc.fr
MARIA AnnickAIS-UPôle technique du Département EcoSensCampus Pierre et Marie Curie – Paris 5e
Tour 44-45 – 3e étage – bureau : 308
(+33) 01-44-27-38-25annick.maria@upmc.fr
MASSOT ManuelCRCNRSÉquipe CReA du Département EcoSensCampus Pierre et Marie Curie – Paris 5e
Tour 44-45 – 3e étage – bureau : 316
(+33) 01-44-27-27-35manuel.massot@upmc.fr
MAÏBÈCHE MartinePUS-UÉquipe CReA du Département EcoSensCampus Pierre et Marie Curie – Paris 5e
Tour 44-45 – 3e étage – bureau : 312
(+33) 01-44-27-65-92martine.maibeche@upmc.fr
MESLIN CamilleCRINRAEÉquipe CReA du Département EcoSensINRAE de Versailles
bâtiment 1 – RDC – bureau : 6A
(+33) 01-30-83-31-64Camille.Meslin@inrae.fr
MONSEMPES ChristelleAIINRAEPôle technique du Département EcoSensINRAE de Versailles
bâtiment 1 – Sous-sol étage – bureau : 14b
(+33) 01-30-83-31-43christelle.monsempes@inrae.fr
MONTAGNÉ NicolasMCS-UÉquipe CReA du Département EcoSensCampus Pierre et Marie Curie – Paris 5e
Tour 44-45 – 3e étage – bureau : 314
(+33) 01-44-27-38-37nicolas.montagne@upmc.fr
PERSYN EmmaDoctoranteUniv. de La RéunionÉquipe CReA du Département EcoSensINRAE de Versailles
bâtiment 1 – RDC – bureau : 5B
(+33) 01-30-83-32-12emma.persyn@inrae.fr
RIVAS JohannaDoctoranteAgroParisTechÉquipe CReA du Département EcoSensCampus Pierre et Marie Curie – Paris 5e
Tour 44-45 – 3e étage – bureau : 308
johanna.rivas@sorbonne-universite.fr
ROSKAM PascalAJTINRAEPôle technique du Département EcoSensINRAE de Versailles
bâtiment 1 – RDC – bureau : 0
(+33) 01-30-83-32-07pascal.roskam@inrae.fr
SIAUSSAT DavidPUS-UÉquipe CReA du Département EcoSensCampus Pierre et Marie Curie – Paris 5e
Tour 44-45 – 3e étage – bureau : 310
david.siaussat@sorbonne-universite.fr
SURAY CarolineTINRAEPôle technique du Département EcoSensINRAE de Versailles
bâtiment 1 – Sous-sol étage – bureau : 14c
(+33) 01 30 83 33 55 caroline.suray@inrae.fr

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