{"id":46,"date":"2013-08-27T00:13:13","date_gmt":"2013-08-26T22:13:13","guid":{"rendered":"http:\/\/wp.unil.ch\/reymondlab\/?page_id=46"},"modified":"2025-09-19T09:25:41","modified_gmt":"2025-09-19T07:25:41","slug":"publications","status":"publish","type":"page","link":"https:\/\/wp.unil.ch\/reymondlab\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

2025<\/b><\/p>\n

Mineiro M.*, Groux R.*, Gouhier-Darimont C., Mateo P., Robert CAM and Reymond P.<\/strong> (2025) The glutamate receptor-like GLR2.7 modulates insect egg-induced defense responses in Arabidopsis. New Phytologist<\/em> 248: 897-912.<\/span><\/span><\/p>\n

Xian W., Carbonell-Bejerano P., Rabanal F. A., Bezrukov I., Reymond P.<\/strong> and Weigel D. (2025) Minimizing detection bias of somatic mutations in a highly heterozygous oak genome.<\/span> G3: Genes, Genomes, Genetics<\/em> 15: jkaf143.<\/p>\n

Fernandez Martin A. and Reymond P.<\/strong> (2025) Impact of lepidopteran oral secretions on the transcriptome of Arabidopsis thaliana<\/em>. Plant Direct<\/em> 9: e70085.<\/span><\/span><\/p>\n

Schweizer F., Monte I., Solano R. and  Reymond P.<\/strong> (2025) Marchantia polymorpha<\/em> defense against snail herbivory.<\/span> Plant-Environment Interactions<\/em> 6: 270052.<\/p>\n

 <\/p>\n

2023<\/b><\/p>\n

Yang H., Kim X., Sklenar J., Aubourg S., Sancho Andr\u00e8s G., Stahl E., Guillou M.-C., Gigli-Bisceglia N., Tran Van Canh L., Bender K.W., Stintzi A., Reymond P.<\/strong>, Sanchez Rodriguez C., Testerink C., Renou J.-P., Menke F.L.H., Schaller A., Rhodes J. and Zipfel C. (2023) Subtilase-mediated biogenesis of the expanded family of SERINE RICH ENDOGENOUS PEPTIDES.<\/span> Nature Plants<\/em> 9: 2085-2094.<\/p>\n

Stahl E., Maier L.-P. and  Reymond P.<\/strong> (2023) Insect egg-induced innate immunity: Who benefits?<\/span> PLoS Pathogens<\/em> 19: e1011072.<\/p>\n

 <\/p>\n

2022<\/b><\/p>\n

Reymond P.<\/strong> (2022) The chemistry of plant-insect egg interactions.<\/span> Chimia<\/em> 76: 914-921.<\/p>\n

Groux R., Fouillen L., Mongrand S. and Reymond P.<\/strong> (2022) Sphingolipids are involved in insect egg-induced cell death in Arabidopsis. Plant Physiology <\/i>289: 2535-2553.<\/span><\/span><\/span><\/p>\n

Stahl E., Fernandez Martin A., Glauser G., Guillou M.-C., Aubourg S., Renou J.-P. and Reymond P.<\/strong> (2022) MIK2\/SCOOP signaling system contributes to Arabidopsis resistance against herbivory and indole glucosinolate biosynthesis. Frontiers in Plant Science <\/i>13: 852808.<\/span><\/span><\/span><\/p>\n

 <\/p>\n

2021<\/b><\/p>\n

Alfonso E., Stahl E., Glauser G., Bellani E., Raaymakers T.M., Van den Ackerveken G., Zeier J. and Reymond P.<\/strong> (2021)  Insect eggs trigger systemic acquired resistance against a fungal and an oomycete pathogen. New Phytologist <\/i>232: 2491-2505.<\/span><\/span><\/span><\/p>\n

Reymond P.<\/strong> (2021)  Receptor kinases in plant responses to herbivory. <\/span><\/span>Current Opinion in Biotechnology<\/em> 70:143-150.<\/span><\/i><\/span><\/span><\/span><\/p>\n

Groux R., Stahl E., Gouhier-Darimont C., Kerdaffrec E., Jimenez-Sandoval P., Santiago J. and Reymond P.<\/strong> (2021)  Arabidopsis natural variation in insect egg-induced cell death reveals a role for LECTIN RECEPTOR KINASE I.1. Plant Physiology <\/i>185: 240-255.<\/span><\/i><\/span><\/span><\/span><\/p>\n

 <\/p>\n

2020<\/strong><\/p>\n

Stahl E., Brillatz T., Ferreira Queiroz E., Marcourt L., Schmiesing A., Hilfiker O., Riezman I., Riezman H., Wolfender J.-L. and Reymond P.<\/strong> (2020) Phosphatidylcholines from Pieris brassicae<\/em> eggs induce an immune response in Arabidopsis. eLife<\/i> 9: e60293.<\/span><\/span><\/span><\/p>\n

Orlovskis Z. and Reymond P.<\/strong> (2020) Pieris brassicae<\/em> eggs trigger inter-plant systemic acquired resistance against a foliar pathogen in Arabidopsis. New Phytologist <\/em>228: 1652-1661.<\/span><\/span><\/span><\/p>\n

Marquis V., Smirnova E., Poirier L., Zumsteg J., Schweizer F., Reymond P.<\/strong>  and Heitz T. (2020) Stress- and pathway-specific impacts of impaired jasmonoyl-isoleucine (JA-Ile) catabolism on defense signaling and biotic stress resistance<\/span><\/span>.<\/span><\/span> Plant, Cell<\/em> & Environment <\/em>43: 1558-1570.<\/p>\n

 <\/p>\n

2019<\/strong><\/p>\n

Pe\u00f1uelas M., Monte I., Schweizer F., Vallat A., Reymond P.<\/strong>, Garc\u00eda-Casado G., Franco-Zorrilla J. M. and Solano R. (2019) Jasmonate-related MYC transcription factors are functionally conserved in Marchantia polymorpha<\/em><\/span><\/span>.<\/span><\/span> Plant Cell<\/em> 31: 2491-2509.<\/p>\n

Gouhier-Darimont C., Stahl E., Glauser G. and Reymond P.<\/strong> (2019) The Arabidopsis<\/em> receptor kinase LecRK-I.8 is involved in insect egg perception.<\/span><\/span> Frontiers in Plant Science<\/em> 10: 263.<\/p>\n

Erb M. and Reymond P.<\/strong> (2019) Molecular interactions between plants and insect herbivores<\/span>.<\/span> Annual Review of Plant Biology<\/em> 70: 527-557.<\/p>\n

2018<\/strong><\/p>\n

Monte I., Ishida S., Zamarre\u00f1o A. M., Hamberg M., Franco-Zorilla J. M., Garc\u00eda-Casado G., Gouhier-Darimont C., Reymond P.<\/strong>, Takahashi K., Garc\u00eda-Mina J. M., Nishihama R., Kohchi T. and Solano R. (2018) Ligand-receptor co-evolution shaped the jasmonate pathway in land plants<\/span>.<\/span> Nature Chemical Biology<\/em> 14: 480-488.<\/span><\/span><\/p>\n

Blanc C., Coluccia F., L\u00b4Haridon F., <\/sup>Torres M., Ortiz-Berrocal <\/em><\/strong>M., Stahl E., Reymond P.<\/strong>, Schreiber L., Nawrath C., M\u00e9traux J.-P. and Serrano M. (2018) The cuticle mutant eca2<\/em> modifies the plant defense responses to biotrophic and necrotrophic pathogens and herbivory insects.<\/span> Molecular Plant-Microbe Interactions<\/em> 31: 344-355.<\/p>\n

Stahl E., Hilfiker O., and Reymond P.<\/strong> (2018) Plant-arthropod interactions: who is the winner?<\/span> Plant Journal<\/em> 93: 703-728.<\/p>\n

Chini A., Monte I., Zamarre\u00f1o A., Hamberg M., Lassueur S., Reymond P.<\/strong>, Weiss S., Stintzi A., Schaller A., Porzel A., Garc\u00eda-Mina J.M. and Solano R. (2018) An OPR3-independent pathway uses 4,5-didehydro-jasmonate for jasmonate synthesis.<\/span> Nature Chemical Biology<\/em> 14: 171-178.<\/p>\n

2017<\/strong><\/p>\n

Schmid-Siegert E.\u2020<\/sup>, Sarkar N.\u2020<\/sup>, Iseli C.\u2020<\/sup>, Calderon S., Gouhier-Darimont C., Chrast J,, Cattaneo P., Sch\u00fctz F., Farinelli L., Pagni M., Schneider M., Voumard J., Jaboyedoff M., Fankhauser C.*<\/sup>, Hardtke C.S.*<\/sup>, Keller L.*<\/sup>, Pannell J.R.*<\/sup>, Reymond A.*<\/sup>, Robinson-Rechavi M.*<\/sup>, Xenarios I.*<\/sup> and Reymond P.*<\/sup><\/strong> (2017) Low number of fixed somatic mutations in a long-lived oak tree.<\/span> Nature Plants<\/em> 3: 926-929.<\/p>\n

Bonnet C., Lassueur S., Ponzio C., Gols R., Dicke M. and Reymond P. <\/strong>(2017) Combined biotic stresses trigger similar transcriptomic responses but contrasting resistance against a chewing herbivore in Brassica nigra<\/em><\/span>. BMC Plant Biology <\/i>17: 127.<\/p>\n

Schweizer F., Heidel-Fischer H., Vogel H.*<\/sup> and Reymond P.*<\/sup> <\/strong>(2017) Arabidopsis glucosinolates trigger a contrasting transcriptomic response in a generalist and a specialist herbivore. Insect Biochemistry and Molecular Biology<\/em> 85: 21-31.<\/span><\/span><\/p>\n

2016<\/strong><\/p>\n

Papazian S., Khaling E., Bonnet C., Lassueur S., Reymond P.<\/strong>, Moritz D., Blande J. D. and Albrectsen B. R. (2016) Central metabolic responses to ozone and herbivory affect photosynthesis and stomatal closure. Plant Physiology<\/em> 172: 2057-2078.<\/span><\/span><\/p>\n

\n
\n
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Schmiesing A., Emonet A., Gouhier-Darimont C. and Reymond P.<\/strong> (2016) Arabidopsis MYC transcription factors are the target of hormonal salicylic acid\/jasmonic acid cross talk in response to Pieris brassicae egg extract.<\/span> Plant Physiology<\/em> 170: 2432-2443.
\n<\/span><\/span>Retraction:<\/strong> Plant Physiology<\/a> <\/p>\n<\/div>\n<\/div>\n<\/div>\n

2015<\/strong><\/p>\n

Reymond P.<\/strong> and Calandra T. (2015) Plant immune responses: Aphids strike back. Current Biology<\/em> 25: R604-R606.<\/span><\/span><\/p>\n

Rasmann S.*<\/sup>, Chassin E., Bilat J., Glauser G. and Reymond P.<\/strong> (2015) Trade-off between constitutive and inducible resistance against herbivores is only partially explained by gene expression and glucosinolate production.<\/span> Journal of Experimental Botany<\/em> 66: 2527-2534.<\/p>\n

2014<\/strong><\/p>\n

Hilfiker O., Groux R., Bruessow F., Kiefer K., Zeier J.,and Reymond P.<\/strong> (2014) Insect eggs induce a systemic acquired resistance in Arabidopsis.<\/span> Plant Journal<\/em> 80: 1085-1094.<\/p>\n

Groux R., Hilfiker O., Gouhier-Darimont C., Pe\u00f1aflor M.F.G.V., Erb M. and Reymond P.<\/strong> (2014) Role of methyl salicylate on oviposition deterrence in Arabidopsis thaliana<\/em>.<\/span> Journal of Chemical Ecology<\/em> 40: 754-759.<\/p>\n

2013<\/strong><\/p>\n

Schweizer F.\u2020<\/sup>, Fern\u00e1ndez-Calvo P.\u2020<\/sup>, Zander M., Diez-Diaz M., Fonseca S., Glauser G., Lewsey M.G., Ecker J.R., Solano R. and Reymond P.<\/strong> (2013) Arabidopsis<\/em> bHLH transcription factors MYC2, MYC3 and MYC4 regulate glucosinolate biosynthesis, insect performance and feeding behavior. <\/span> Plant Cell <\/b><\/em>25: 3117-3132.<\/p>\n

Reymond P.<\/strong> (2013) Perception, signaling and molecular basis of oviposition-mediated plant responses.<\/span> Planta<\/em> 238: 247-258.<\/p>\n

Schweizer F., Bodenhausen N., Lassueur S., Masclaux F. and Reymond P.<\/strong> (2013) Differential contribution of transcription factors to Arabidopsis thaliana<\/em> defence against Spodoptera littoralis<\/em>.<\/span> Frontiers in Plant Science<\/em> 4: 13.<\/p>\n

Gouhier-Darimont C., Schmiesing A., Bonnet C., Lassueur S. and Reymond P.<\/strong> (2013) Signalling of Arabidopsis thaliana<\/em> response to Pieris brassicae<\/em> eggs shares similarities with PAMP-triggered immunity.<\/span> Journal of Experimental Botany<\/em> <\/strong>64: 665-674.<\/p>\n

2012<\/strong><\/p>\n

\n

Masclaux F., Bruessow F., Schweizer F., Gouhier-Darimont C., Keller L. and Reymond P.<\/strong> (2012) Transcriptome analysis of intraspecific competition in Arabidopsis thaliana<\/em> reveals organ-specific signatures related to nutrient acquisition and general stress response pathways.<\/span> BMC Plant Biology <\/em>12: 227.<\/p>\n

Glauser G., Schweizer F., Turlings T.C.J. and Reymond P.<\/strong> (2012) Rapid profiling of intact glucosinolates in Arabidopsis leaves by UHPLC-QTOFMS using a charged surface hybrid column.<\/span> Phytochemical Analysis <\/strong><\/em>23: 520-528.<\/p>\n

Consales F.\u2020<\/sup>, Schweizer F.\u2020<\/sup>, Erb M.\u2020<\/sup>, Gouhier-Darimont C., Bodenhausen N., Bruessow F., Sobhy I. and Reymond P.<\/strong> (2012) Insect oral secretions suppress wound-induced responses in Arabidopsis<\/em>.<\/span> Journal of Experimental Botany<\/em> 63: 727-737.<\/p>\n

2011<\/strong><\/p>\n

Fern\u00e1ndez-Calvo P., Chini A., Fern\u00e1ndez-Barbero G., Chico J.-M., Gimenez-Ibanez S., Geerinck J., Eeckhout D., Schweizer F., Godoy M., Franco-Zorrilla J.M., Pauwels L., Witters E., Puga M. I., Paz-Ares J., Goossens A., Reymond P.<\/strong>, de Jaeger G. and Solano R. (2011) The bHLH transcription factors MYC3 and MYC4 are targets of JAZ repressors and act additively with MYC2 in the activation of jasmonate responses.<\/span> Plant Cell<\/em> 23: 701-715.<\/em><\/p>\n

2010<\/strong><\/p>\n

Bruessow F., Gouhier-Darimont C., Buchala A., Metraux J.-P. and Reymond P.<\/strong> (2010) Insect eggs suppress plant defence against chewing herbivores.<\/span> Plant Journal <\/strong><\/em>62: 876-885.<\/p>\n

Masclaux F., Hammond R. L., Meunier J., Gouhier-Darimont C., Keller L. and Reymond P.<\/strong> (2010) Competitive ability not kinship affects growth of Arabidopsis thaliana<\/em> accessions.<\/span> New Phytologist<\/em> 185: 322-331.<\/p>\n

2009<\/strong><\/p>\n

Raffaele S., Bayer E., Lafarge D., Cluzet S., German-Retana S., Boubekeur T., Leborgne-Castel N., Carde J.-P., Lherminier J., Noirot E., Satiat-Jeunema\u00eetre B., Laroche-Traineau J., Moreau P., Ott T., Maule A. J., Reymond P.<\/strong>, Simon-Plas F., Farmer E. E., Bessoule J.-J. and Mongrand S. (2009) Remorin, a Solanaceae protein resident in membrane rafts and plasmodesmata, impairs Potato virus X<\/em> movement.<\/span> Plant Cell<\/em> 21: 1541-1555.<\/p>\n

2008<\/strong><\/p>\n

Schlaeppi K.\u2020<\/sup>, Bodenhausen N.\u2020<\/sup>, Buchala A., Mauch F. and Reymond P.<\/strong> (2008) The glutathione-deficient mutant pad2-1<\/em> accumulates lower amounts of glucosinolates and is more susceptible to the insect herbivore Spodoptera littoralis<\/em>.<\/span> Plant Journal<\/em> 55: 774-786.<\/p>\n

Ribot C., Zimmerli C., Farmer E.E., Reymond P.<\/strong> and Poirier Y. (2008) Induction of the Arabidopsis PHO1;H10<\/em> gene by 12-oxo-phytodienoic acid but not jasmonic acid via a CORONATINE INSENSITIVE1-dependent pathway.<\/span> Plant Physiology<\/em> 147: 696-706.<\/p>\n

Van Oosten V. R., Bodenhausen N., Reymond P.<\/strong>, Van Pelt J. A., Van Loon L. C., Dicke M. and Pieterse C. M. J. (2008) Differential effectiveness of microbially induced resistance against herbivorous insects in Arabidopsis.<\/span> Molecular Plant-Microbe Interactions <\/strong><\/em>21: 919-930.<\/p>\n

2007<\/strong><\/p>\n

Sclep G., Allemeersch J., Liechti R., De Meyer B., Beynon J., Bhalerao R., Moreau Y., Nietfeld W., Renou J.-P., Reymond P.<\/strong>, Kuiper M.T.R. and Hilson P. (2007) CATMA, a comprehensive genome-scale resource for silencing and transcript profiling of Arabidopsis genes.<\/span> BMC Bioinformatics<\/em> 8: 400.<\/p>\n

Bodenhausen N. and Reymond P.<\/strong> (2007) Signaling pathways controlling induced resistance to insect herbivores in Arabidopsis.<\/span> <\/strong>Molecular Plant-Microbe Interactions<\/em> 20: 1406-1420.<\/p>\n

Yan Y., Stolz S., Ch\u00e9telat A., Reymond P.<\/strong>, Pagni M., Dubugnon L. and Farmer E. E. (2007) A downstream mediator in the growth repression limb of the jasmonate pathway. <\/span>Plant Cell <\/em>19: 2470-2483.<\/p>\n

Bruessow F. and Reymond P.<\/strong> (2007) Oviposition-induced changes in Arabidopsis genome expression. Anticipating your enemy?<\/span> <\/strong>Plant Signaling & Behavior<\/em> 2: 164-166.<\/p>\n

Little D., Gouhier-Darimont C., Bruessow F. and Reymond P.<\/strong> (2007). Oviposition by Pierid butterflies triggers defense responses in Arabidopsis.<\/span> <\/strong>Plant Physiology <\/strong><\/em>143: 784-800.<\/p>\n

2005<\/strong><\/p>\n

Bruggman R., Abderhalden O., Reymond P. <\/strong> and Dudler R. (2005) A<\/span>nalysis of epidermis- and mesophyll-specific transcript accumulation in powdery mildew-inoculated wheat leaves.<\/span> Plant Molecular Biology<\/em> 58: 247-267.<\/p>\n

2004<\/strong><\/p>\n

Hilson P., Allemeersch J., Altmann T., Aubourg S., Avon A., Beynon J., Bhalerao R. P., Bitton F., Caboche M., Cannoot B., <\/em>Chardakov V., Cognet-Holliger C., Colot V., Crowe M., Darimont C., Durinck S., Eickhoff H., Falcon de Longuevialle A., Farmer E.E., Grant M., Kuiper M.T.R., Lehrach H., L\u00e9on C., Leyva A., Lundeberg J., Lurin C, Moreau Y., Nietfeld W., Paz-Ares J., Reymond P.<\/strong>, Rouz\u00e9 P., Sandberg G., Segura M.D., Serizet C., Tabrett A., Taconnat L., Thareau V., Van Hummelen P., Vercruysse S., Vuylsteke M., Weingartner M., Weisbeek P.J., Wirta V., Wittink F.R.A., Zabeau M. and Small I. (2004). Versatile gene-specific sequence tags for Arabidopsis functional genomics: transcript profiling and reverse genetics applications.<\/span> Genome Research <\/strong><\/em>14: 2176-2189.<\/p>\n

Reymond P.<\/strong>, Bodenhausen N., Van Poecke R. M., Krishnamurthy V., Dicke M. and Farmer E. E. (2004). A conserved transcript pattern in response to a specialist and a generalist herbivore.<\/span> Plant Cell <\/em>16: 3132-3147.<\/p>\n

Weber H., Chetelat A., Reymond P.<\/strong> and Farmer E. E. (2004). Selective and powerful stress gene expression in Arabidopsis in response to malondialdehyde.<\/span> Plant Journal <\/strong><\/em>37: 877-888.<\/p>\n

2003<\/strong><\/p>\n

Almeras E., Stolz S., Vollenweider S., Reymond P.<\/strong>, Mene-Saffrane L. and Farmer E. E. (2003). Reactive electrophile species activate defense gene expression in Arabidopsis. <\/span>Plant Journal <\/strong><\/em>34: 205-216.<\/p>\n

Crowe M. L., Serizet C., Thareau V., Aubourg S., Rouze P., Hilson P., Beynon J., Weisbeek P., van Hummelen P., Reymond P.<\/strong>, <\/em>Paz-Ares J., Nietfeld W. and Trick M. <\/em>(2003). CATMA: a complete Arabidopsis GST database.<\/span> Nucleic Acids Research <\/em>31: 156-158.<\/p>\n

2001<\/strong><\/p>\n

Reymond P.<\/strong> (2001) DNA microarrays and plant defence.<\/span> Plant Physiology and Biochemistry <\/strong><\/em>39: 313-321.<\/p>\n

Stintzi A., Weber H., Reymond P.<\/strong>, Browse J. and Farmer E. E. (2001). Plant defense in the absence of jasmonic acid: the role of cyclopentenones.<\/span> Proceedings of the National Academy of Sciences USA  <\/strong><\/em>98: 12837-12842.<\/p>\n

2000<\/strong><\/p>\n

Reymond P.<\/strong>, Weber H., Damond, M. and Farmer E. E. (2000). Differential gene expression in response to mechanical wounding and insect feeding in Arabidopsis.<\/span> Plant Cell <\/strong><\/em>12: 707-720.<\/p>\n

1998<\/strong><\/p>\n

Christie J. M., Reymond P.<\/strong>, Powell G. K., Bernasconi P., Raibekas A. A., Liscum E. and Briggs W. R. (1998). Arabidopsis NPH1: a flavoprotein with the properties of a photoreceptor for phototropism.<\/span> Science <\/strong><\/em>282: 1698-1701.<\/p>\n

Reymond P.<\/strong> and Farmer E. E. (1998). Jasmonate and salicylate as global signals for defense gene expression.<\/span> Current Opinion in Plant Biology <\/strong><\/em>1: 404-411.<\/p>\n

1996<\/strong><\/p>\n

Reymond P<\/strong>., Kunz B., Paul-Pletzer K., Grimm R., Eckerskorn C. and Farmer E. E. (1996). Cloning of a cDNA encoding a plasma membrane-associated, uronide binding phosphoprotein with physical properties similar to viral movement proteins.<\/span> Plant Cell <\/strong><\/em>8: 2265-2276.<\/p>\n

1995<\/strong><\/p>\n

Reymond P.<\/strong>, Grunberger S., Paul K., Muller M. and Farmer E. E. (1995). Oligogalacturonide defense signals in plants: large fragments interact with the plasma membrane in vitro<\/em>.<\/span> Proceedings of the National Academy of Sciences USA <\/strong><\/em>92: 4145-4149.<\/p>\n

1993<\/strong><\/p>\n

Reymond P.<\/strong>, Amey M., Souche A., Lambert S., Konrat H., Eap C. B. and Baumann P. (1993). Determination of plasma levels of citalopram and its demethylated and deaminated metabolites by gas chromatography and gas chromatography-mass spectrometry. <\/span>Journal of Chromatography <\/strong><\/em>616: 221-228.<\/p>\n

Short T. W., Reymond P.<\/strong> and Briggs W. R. (1993). A pea plasma membrane protein exhibiting blue light-induced phosphorylation retains photosensitivity following triton solubilization.<\/span> Plant Physiology <\/strong><\/em>101: 647-655.<\/p>\n

1992<\/strong><\/p>\n

Eap C.B., Laurian S., Souche A., Koeb L., Reymond P.<\/strong>, Buclin T. and Baumann P. (1992) Influence of quinidine on the pharmacokinetics of trimipramine and its effect on the waking EEG of healthy volunteers.<\/span> Neuropsychobiology<\/em> 25: 214-220.<\/p>\n

Reymond P.<\/strong>, Short T. W., Briggs W. R. and Poff K. L. (1992). Light-induced phosphorylation of a membrane protein plays an early role in signal transduction for phototropism in Arabidopsis thaliana<\/em>.<\/span> Proceedings of the National Academy of Sciences USA <\/strong><\/em>89: 4718-4721.<\/p>\n

Reymond P.<\/strong>, Short T.W. and Briggs W.R. (1992) Blue light activates a specific protein kinase in higher plants.<\/span> Plant Physiology<\/em> 100: 655-661.<\/p>\n

1991<\/strong><\/p>\n

Souche A., Montaldi S., Uehlinger C., Kasas A., Reymond M.-J., Reymond P.<\/strong>, Baumann P. and Dufour H. (1991) Traitement de la d\u00e9pression r\u00e9sistante par l’association citalopram-lithium. M\u00e9thodologie d’une \u00e9tude multicentrique en double aveugle et resultats pr\u00e9liminaires.<\/span> L’Enc\u00e9phale<\/em> XVII: 213-219.<\/p>\n

1990<\/strong><\/p>\n

Ben-Efraim I., Gad A.E., Cohen P., Reymond P.<\/strong> and Pilet P.E. (1990) The effect of 4-chloro-resorcinol on the endogenous levels of IAA, ABA and oxidative enzymes in cuttings.<\/span> Plant Growth Regulation<\/em> 9: 97-106.<\/p>\n

1987<\/strong><\/p>\n

Reymond P.<\/strong>, Saugy M. and Pilet P.E. (1987) Quantification of ABA in a single maize root. <\/span>Plant Physiology<\/em> 85: 8-9.<\/p>\n<\/div>\n","protected":false},"excerpt":{"rendered":"

2025 Mineiro M.*, Groux R.*, Gouhier-Darimont C., Mateo P., Robert CAM and Reymond P. (2025) The glutamate receptor-like GLR2.7 modulates insect egg-induced defense responses in Arabidopsis. New Phytologist 248: 897-912. Xian … <\/p>\n","protected":false},"author":1325,"featured_media":0,"parent":0,"menu_order":5,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_seopress_robots_primary_cat":"","_seopress_titles_title":"","_seopress_titles_desc":"","_seopress_robots_index":"","ngg_post_thumbnail":0,"footnotes":""},"class_list":["post-46","page","type-page","status-publish"],"_links":{"self":[{"href":"https:\/\/wp.unil.ch\/reymondlab\/wp-json\/wp\/v2\/pages\/46","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/wp.unil.ch\/reymondlab\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/wp.unil.ch\/reymondlab\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/wp.unil.ch\/reymondlab\/wp-json\/wp\/v2\/users\/1325"}],"replies":[{"embeddable":true,"href":"https:\/\/wp.unil.ch\/reymondlab\/wp-json\/wp\/v2\/comments?post=46"}],"version-history":[{"count":4,"href":"https:\/\/wp.unil.ch\/reymondlab\/wp-json\/wp\/v2\/pages\/46\/revisions"}],"predecessor-version":[{"id":1685,"href":"https:\/\/wp.unil.ch\/reymondlab\/wp-json\/wp\/v2\/pages\/46\/revisions\/1685"}],"wp:attachment":[{"href":"https:\/\/wp.unil.ch\/reymondlab\/wp-json\/wp\/v2\/media?parent=46"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}