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Laboratory of Plant-Microbe Interactions - LIPM

Laboratory of Plant-Microbe Interactions

Publications - Immunity networks and plant responses to the environment

Publications (5 last years)

  • Zhang, B Tremousaygue D, Denancé N, van Esse P, Hörger A, Dabos P, Goffner D, Thomma B, van der Hoorn R, Tuominen H (2014) PIRIN2 stabilizes cysteine protease XCP2 and increases susceptibility to the vascular pathogen Ralstonia solanacearum in Arabidopsis. Plant J (in press)
  •  Vilarrasa-Blasi J, González-García MP, Frigola D, Fàbregas N, Alexiou KG, López-Bigas N, Rivas S, Jauneau A, Lohmann JU, Benfey PN, Ibañes M  and Caño-Delgado A (2014) Regulation of plant stem cell quiescence by a novel Brassinosteroid signaling module. Dev. Cell30, 36-47.
  • Roux F, Voisin D, Badet T, Balague C, Barlet X, Huard-Chauveau C, Roby D, Raffaele S (2014) Resistance to phytopathogens e tutti quanti: placing plant Quantitative Disease Resistance on the map. Mol. Plant Pathol. 15(5): 427-432
  • Guyon K, Balagué C, Roby D, Raffaele S (2014) Secretome analysis reveals effector candidates associated with broad host range necrotrophy in the fungal plant pathogen Sclerotinia sclerotiorum. BMC Genomics 15:336
  • Duplan V and Rivas S (2014) E3 ubiquitin-ligases and their target proteins during the regulation of plant innate immunity. Front. Plant Sci. 5: 42.  
  • Buscaill P and Rivas S (2014) Transcriptional control of plant defence responses. Curr. Opin. Plant Biol. 20: 35-46.  
  • Khafif  M, Cottret L, Balagué C, Raffaele S. (2014) Identification and phylogenetic analyses of VASt, an uncharacterized protein domain associated with lipid-binding domains in Eukaryotes. BMC Bioinformatics 15:222..  
  • Roux F, Noel L, Rivas S and Roby D (2014) ZRK atypical kinases: emerging signaling components of plant immunity. New Phytol. 203(3):707-13
  • Yadeta KA, Valkenburg DJ, Hanemian M, Marco Y, Thomma BP (2014) The Brassicaceae-specific EWR1 gene provides resistance to vascular wilt pathogens. Plos One 9:e88230.
  • Perazza D., Laporte F., Balagué C., Chevalier F., Remo S., Bourge M., Larkin J., Herzog M. and Vachon C. (2014) GeBP/GPL transcription factors regulate a subset of CPR5-dependent processes. Plant Physiol., 157: 1232-1242.
  • Deslandes L, Genin S (2014) Opening the Ralstonia solanacearum type III effector tool box: insights into host cell subversion mechanisms. Curr Opin Plant Biol 20C: 110-117
  •  Vilarrasa-Blasi J, González-García MP, Frigola D, Fàbregas N, Alexiou KG, López-Bigas N, Rivas S, Jauneau A, Lohmann JU, Benfey PN, Ibañes M  and Caño-Delgado A (2014) Regulation of plant stem cell quiescence by a novel Brassinosteroid signaling module. Dev. Cell30, 36-47.
  • Raffaele S and Rivas S (2013) Regulate and be regulated: integration of defence and other signals by the AtMYB30 transcription factor. Front. Plant Sci. 4(98): 1-7.
    PubMed
  • Hanemian M, Zhou B, Deslandes L, Marco Y, Trémousaygue D (2013) Hrp mutant bacteria as biocontrol agents: toward a sustainable approach in the fight against plant pathogenic bacteria. Plant Signal Behav 8(10): doi: 10.4161/psb.25678
  • Rivas S, Deslandes L (2013) Nuclear components and dynamics during plant innate immunity. Front Plant Sci 4: 481
  • Huard-Chauveau C, Perchepied L, Debieu M, Rivas S, Kars I, Bergelson J, Roux F and Roby D (2013). A pseudokinase under balancing selection confers broad-spectrum disease resistance in Arabidopsis. PLOS Genetics 9: e1003766.
  • Denancé N, Ranocha P, Oria N, Barlet X, Rivière MP, Yadeta KA, Hoffmann L, Perreau F, Clément G, Maia-Grondard A, van den Berg GC, Savelli B, Fournier S, Aubert Y, Pelletier S, Thomma BP, Molina A, Jouanin L, Marco Y, Goffner D (2013) Arabidopsis wat1 (walls are thin1)-mediated resistance to the bacterial vascular pathogen, Ralstonia solanacearum, is accompanied by cross-regulation of salicylic acid and tryptophan metabolism. Plant J. 73: 225-239
  • Van der Linden L, Bredenkamp J, Naidoo S, Fouché-Weich J, Denby KJ, Genin S, Marco Y, Berger DK. (2013) Gene-for-gene tolerance to bacterial wilt in Arabidopsis Mol Plant Microbe Interact. 4:398-406
  • Brachi B, Villoutreix, R, Faure, N., Hautekeete, N, Piquot Y, Pauwels, M, Roby D, Cuguen, J, Bergelson, J, Roux F(2013) Investigation of the geographic scale of adaptive phenological variation and its underlying genetic bases in Arabidopsis thaliana. Mol. Ecol. doi: 10.1111/mec.12396
  • Kundu N, Dozier U, Deslandes L, Somssich IE, Ullah H (2013) Arabidopsis scaffold protein RACK1A interacts with diverse environmental stress and photosynthesis related proteins. Plant Signal Behav 8(5): e24012
  • Meyer DF, Noroy C, Moumène A, Raffaele S, Albina E, Vachiéry N. (2013) Searching algorithm for type IV secretion system effectors 1.0: a tool for predicting type IV effectors and exploring their genomic context. Nucleic Acids Res. 41(20):9218-29
  • Cesari S, Thilliez G, Ribot C, Chalvon V, Michel C, Jauneau A, Rivas S, Alaux L, Kanzaki H, Okuyama Y, Morel JB, Fournier E, Tharreau D, Terauchi R and Kroj T (2013). The rice resistance protein pair RGA4/RGA5 recognizes the Magnaporthe oryzae effectors AVR-Pia and AVR1-CO39 by direct binding. Plant Cell 
    PubMed
  • Marino D, Froidure S, Canonne J, Ben Khaled S, Khafif M, Jauneau A, Pouzet C, Roby D and Rivas S (2013) Arabidopsis ubiquitin-ligase MIEL1 mediates degradation of the transcription factor MYB30 weakening plant defense. Nat. Commun.  4, 1476.
    PubMed
  • Feng DX, Tasset C, Hanemian M, Barlet X, Hu J, Trémousaygue D, Deslandes L, Marco Y (2012) Biological control of bacterial wilt in Arabidopsis thaliana involves abscissic acid signalling. New Phytol 194(4): 1035-1045
  • Solé M, Popa C, Mith O, Sohn KH, Jones JD, Deslandes L, Valls M ( 2012) The awr gene family encodes a novel class of Ralstonia solanacearum type III effectors displaying virulence and avirulence activities. Mol Plant Microbe Interact 25: 941-953
  • Digonnet C, Martinez Y, Denancé N, Chasseray M, Dabos P, Ranocha P, Marco Y, Jauneau A, Goffner D. (2012) Deciphering the route of Ralstonia solanacearum colonization in Arabidopsis thaliana roots during a compatible interaction: focus at the plant cell wall. Planta 236(5):1419-31.
  • Canonne J, Pichereaux C, Marino D, Roby D, Rossignol M and Rivas S  (2012) Identification of the protein sequence of the type III effector XopD from the B100 strain of Xanthomonas campestris pv. campestris. Plant Signal. Behav. 7, 184 – 187.
    PubMed
     
  • Canonne J and Rivas S  (2012) Bacterial effectors target the plant cell nucleus to subvert host transcription. Plant Signal. Behav. 7, 217 – 221.
    PubMed
  • Ripoll-Rozada J, Peña A, Rivas S, Moro F, de la Cruz F, Cabezón E and Arechaga I. Regulation of the Type IV secretion ATPase TrwD by magnesium: implications for the catalytic mechanism of the secretion ATPase superfamily (2012) J. Biol. Chem. 287, 17408-17414. 
    PubMed
  • Marino D, Peeters N and Rivas S (2012) Ubiquitination in plant immunity. Plant Phys.
    PubMed
     
  • Deslandes L and Rivas S (2012) Catch me if you can: bacterial effectors and plant targets. TRENDS Plant Sci.
    PubMed
     
  • Rivas, S. (2012) Nuclear Dynamics during Plant Innate Immunity. Plant Physiol. 158(1):87-94 
    PubMed
  • Deslandes, L. and Rivas, S. (2011) The plant cell nucleus: a true arena for the fight between plants and pathogens. Plant Signal. Behav. 6, 42-48.
    PubMed
  • Rivas, S. and Genin, S. (2011) A plethora of virulence strategies hidden behind nuclear targeting of microbial effectors. Front. Plant Sci. 2:104, 1-20. doi: 10.3389/fpls.2011.00104
    PubMed
  • Heidrich, K., Wirthmueller, L., Tasset, C., Pouzet, C., Deslandes, L., Parker, J.E. (2011) Arabidopsis EDS1 connects pathogen effector recognition to cell compartment-specific immune responses. Science. 334(6061):1401-4.
    PubMed
  • Canonne, J., Marino, D., Jauneau, A., Pouzet, C., Brière, C., Roby, D., Rivas, S. (2011) The Xanthomonas type III effector XopD targets the Arabidopsis transcription factor MYB30 to suppress plant defense. Plant Cell. 23(9):3498-511.
    PubMed
  • Perazza, D., Laporte, F., Balagué, C., Chevalier, F., Remo, S., Bourge, M., Larkin, J., Herzog, M., Vachon, G. (2011). GeBP/GPL transcription factors regulate a subset of CPR5-dependent processes. Plant Physiol. 157(3):1232-42. 
    PubMed
  • Cannone, J., Froidure-Nicolas, S. and Rivas, S. (2011) Phospholipases in action during plant defense signalling. Plant Signaling and Behavior 6, 13-18. 
    PubMed
  • Tasset, C., Bernoux, M., Jauneau, A., Pouzet, C., Briere, C., Kieffer-Jacquinod, S., Rivas, S., Marco, Y., Deslandes, L. (2010) Autoacetylation of the Ralstonia solanacearum Effector PopP2 Targets a Lysine Residue Essential for RRS1-R-Mediated Immunity in Arabidopsis. PLoS Pathog 6 e1001202. 
    PubMed
  • Deslandes, L. and Rivas, S. (2010) The plant cell nucleus: a true arena  and pathogens for the fight between plants and pathogens. Plant Signaling and Behavior 6 vol1 42-48 
    PubMed
  • Froidure, S., Cannone, J., Daniel, X., Jauneau, A., Brière, C., Roby, D. and Rivas, S. (2010) AtsPLA2-a nuclear relocalization by the Arabidopsis transcription factor AtMYB30 leads to repression of the plant defence response.Proc. Natl Acad Sci. USA 107(34), 15281-15286. 
    PubMed
  • Froidure, S., Roby, D. and Rivas, S. (2010) Expression of the Arabidopsis transcription facor AtMYB30 is post-transcriptionally regulated. Plant Physiol. Biochem. 48, 735-739. 
    PubMed
  • Perchepied, L., Balagué, C., Riou, C., Claudel-Renard, C., Rivière, N., Grezes-Besset, B. and Roby, D. (2010) NO participates to the complex interplay of defense-related signalling pathways controlling disease resistance to Sclerotinia sclerotiorum in Arabidopsis thaliana. Mol. Plant Microbe Interact. 23(7), 846-860. 
    PubMed
  • Caillaud, M.C., Paganelli, L., Lecomte, P., Deslandes, L., Quentin, M., Pecrix, Y., Le Bris, M., Marfaing, N., Abad, P., and Favery, B. (2009). Spindle Assembly Checkpoint Protein Dynamics Reveal Conserved and Unsuspected Roles in Plant Cell Division. Plos one. e6757 
    PubMed
  • Tronchet, M., Balagué, C., Kroj, T., Jouanin, L. and Roby, D. (2010) Cinnamyl alcohol dehydrogenases-C and D,key enzymes in lignin biosynthesis, play an essential role in disease resistance in Arabidopsis. Mol. Plant Pathol.11(1), 83-92. 
    PubMed
  • Birker, D., Takahara, H., Heidrich, K., Narusaka, M., Deslandes, L., Reymond, M., Parker, J. E., and O’Connell, R. (2009). A locus conferring recessive resistance to Colletotrichum higginsianum is shared by four geographically distinct Arabidopsis accessions. The Plant Journal  60 602-613 
    PubMed
  • Sánchez-Rodríguez, C., Manuel Estévez, J.M.,  Llorente, F., Hernández-Blanco, C., Jordá, L., Pagán, I., Berrocal, M., Marco, Y., Somerville, S. and Molina, A. (2009) The ERECTA Receptor-Like Kinase Regulates Cell Wall–Mediated Resistance to Pathogens in Arabidopsis thaliana. Mol. Plant Microbe Interact 22(8): 953-963. 
    PubMed
  • La Camera, S., Balagué, C., Göbel, C., Geoffroy, P., Legrand, M., Roby, D. And Heitz, T. (2009) The Arabidopsis patatin-like protein 2 (PLP2) plays an essential role in cell death execution and affects differentially biosynthesis of oxylipins and resistance to pathogens.Mol. Plant Microbe Interact. 22(4: 469-481) 
    PubMed
  • Raffaele, S., Léger, A. and Roby, D. (2009) Very Long Chain Fatty Acids and lipid signalling in the response of plants to pathogens.Plant Signaling and Behavior 4(2):, 94-99. 
    PubMed
  • Quentin, M., Allasia, V., Pegard, A., Allais, F., Ducrot, P-H., Favery, B., Levis, C., Martinet, S., Masur, C., Ponchet, M., Roby, D., Schlaich, N.L., Jouanin, L. and Keller, H. (2009) Imbalanced lignin biosynthesis promotes the sexual reproduction of homothallic oomycete pathogens.PloSPathogens 5(1): 1-9. 
    PubMed
  • Hu, J., Barlet, X., Deslandes, L., Hirsch, J., Feng, D. X., Somssich, I. and Marco, Y. (2008) Transcriptional responses of Arabidopsis thaliana during wilt disease caused by the soil-borne phytopathogenic bacterium, Ralstonia solanacearum.PlosONE 3(7): e2589 
    PubMed
  • Mukhtar, M. S., Deslandes, L., Auriac, M-C., Marco, Y., Somssich, I.E. (2008) The Arabidopsis transcription factor WRKY27 influences wilt disease symptom development caused by Ralstonia solanacearum.Plant J. 56 (6): 935-47. 
    PubMed
  • Bernoux, M., Timmers, T., Jauneau, A., Brière, C., De Wit P. J. G. M., Marco, Y. and Deslandes, L. (2008). RD19, an Arabidopsis Cysteine Protease Required for RRS1-R–Mediated Resistance, Is Relocalized to the Nucleus by the Ralstonia solanacearum PopP2 Effector.The Plant Cell 20:2252-64. 
    PubMed
  • Xu, R Q., Blanvillain, S., Feng, J. X., Jiang, B-L., Li, X. Z., Wei, H-Y., Kroj, T., Lauber, E., Roby, D., Chen, B., He, Y. Q., Lu, G-T., Tang, D-J., Vasse, J., Arlat, M. and Tang, J-L. (2008). AvrAC Xcc8004 , a type III effector with a leucine rich repeat domain from Xanthomonas campestris pathovar campestris confers avirulence in vascular tissues of the Arabidopsis thaliana ecotype Col-0. J. Bact. 190 (1): 343-55 
    PubMed
  • Combier, J-P., De Billy, F., Gamas, P., Niebel, A. and Rivas, S. (2008) Trans-regulation of the expression of the transcription factor MtHAP2-1 by a uORF controls root nodule development.Genes and Dev. 22(11): 1549-1559. 
    PubMed
  • Raffaele, S., Vailleau, F., Leger, A., ., Joubes, J., Miersche, O., Huard, C., Blée, E., Mongrand, S., Domergue, F. and Roby, D. (2008). A MYB Transcription Factor Regulates Very Long Chain Fatty Acid Biosynthesis for Activation of the Hypersensitive Cell Death in Arabidopsis.The Plant Cell 20: 752-767. 
    PubMed
  • Bouchez, O., Huard,C., Lorrain, S., Roby, D. and Balagué, C. (2007). Ethylene is one of the key elements for cell death and defense response control in the Arabidopsis lesion mimic mutant vad1.Plant Physiol. 145: 465- 477. 
    PubMed
  • Hernández-Blanco*, C., Feng*, D. X., Hu, J., Sánchez-Vallet, A., Deslandes, L., Llorente, F., Berrocal-Lobo, M., Keller, H., Barlet, X., Sánchez-Rodríguez, C., Anderson, L.K., Somerville, S., Marco*, Y., and Molina*, A. (2007) Impairment of Cellulose Synthases Required for Arabidopsis Secondary Cell Wall Formation Enhances Disease Resistance. The Plant Cell, 19(3): 890-903.(*equal contribution) 
    PubMed
  • Journot-Catalino, N., Somssich, I., Roby, D. and Kroj, T. (2006) The transcription factors WRKY11 and WRKY17 act as negative regulators of basal resistance in Arabidopsis thaliana. The Plant Cell 18(11):3289-302. 
    PubMed

 Other selected publications

  • Bernoux, M., Timmers, T., Jauneau, A., Brière, C., De Wit P. J. G. M., Marco, Y. and Deslandes, L. (2008). RD19, an Arabidopsis Cysteine Protease Required for RRS1-R–Mediated Resistance, Is Relocalized to the Nucleus by the Ralstonia solanacearum PopP2 Effector. The Plant Cell 20, 2252-64. 
    PubMed
  • Raffaele, S., Vailleau, F., Leger, A.,  Joubes, J., Miersche, O., Huard, C., Blée, E., Mongrand, S., Domergue, F. and Roby, D. (2008). A MYB Transcription Factor Regulates Very Long Chain Fatty Acid Biosynthesis for Activation of the Hypersensitive Cell Death in Arabidopsis. The Plant Cell  20, 752-767.  
    PubMed
  • Deslandes, L., Olivier, J., Peeters, N., Feng, D.X., Khounlotham, M., Boucher, C., Somssich, I., Genin, S., Marco, Y. (2003).Physical interaction between RRS1-R, a protein conferring resistance to bacterial wilt, and PopP2, a type III effector targeted to the plant nucleus. Proc. Natl. Acad. Sci U S A. 100, 8024-8029. 
    PubMed
  • Vailleau, F., Daniel, X., Tronchet, M., Montillet, J.L., Triantaphyllides, C. and Roby, D. (2002) AR2R3-MYB gene, AtMYB30, acts as a positive regulator of the hypersensitive cell death program in plants in responseto pathogen attack.Proc. Natl. Acad. Sci. USA 99(15), 10179-10184. 
    PubMed