A Conserved Transcript Pattern in Response to a Specialist and a Generalist Herbivorew⃞
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Philippe Reymond | Natacha Bodenhausen | Marcel Dicke | P. Reymond | E. Farmer | M. Dicke | N. Bodenhausen | Remco M P Van Poecke | Edward E Farmer | Venkatesh Krishnamurthy | R. V. van Poecke | Venkatesh Krishnamurthy | Remco M. P. van Poecke
[1] I. Baldwin,et al. Antisense LOX expression increases herbivore performance by decreasing defense responses and inhibiting growth-related transcriptional reorganization in Nicotiana attenuata. , 2003, The Plant journal : for cell and molecular biology.
[2] C. Wasternack,et al. Biochemical and Molecular Characterization of a Hydroxyjasmonate Sulfotransferase from Arabidopsis thaliana * , 2003, The Journal of Biological Chemistry.
[3] J. Parker,et al. Interplay of signaling pathways in plant disease resistance. , 2000, Trends in genetics : TIG.
[4] M. Miles,et al. An insect molecular clock dates the origin of the insects and accords with palaeontological and biogeographic landmarks. , 2002, Molecular biology and evolution.
[5] E. Farmer. Adding injury to insult: pathogen detection and responses , 2000, Genome Biology.
[6] D. Luthe,et al. Insect feeding mobilizes a unique plant defense protease that disrupts the peritrophic matrix of caterpillars , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[7] J. Browse,et al. Plant defense in the absence of jasmonic acid: The role of cyclopentenones , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[8] P. Pare. Concerted biosynthesis of an elicitor of plant volatiles , 1998 .
[9] M. Dicke. Are herbivore‐induced plant volatiles reliable indicators of herbivore identity to foraging carnivorous arthropods? , 1999 .
[10] M. Dicke,et al. beta-Glucosidase: an elicitor of herbivore-induced plant odor that attracts host-searching parasitic wasps. , 1995, Proceedings of the National Academy of Sciences of the United States of America.
[11] Hur-Song Chang,et al. Characterization of the Early Response of Arabidopsis to Alternaria brassicicola Infection Using Expression Profiling[w] , 2003, Plant Physiology.
[12] P. Reymond,et al. Jasmonate and salicylate as global signals for defense gene expression. , 1998, Current opinion in plant biology.
[13] K. Korth. Profiling the response of plants to herbivorous insects , 2003, Genome Biology.
[14] J. Gershenzon,et al. Successful herbivore attack due to metabolic diversion of a plant chemical defense. , 2004, Proceedings of the National Academy of Sciences of the United States of America.
[15] I. Baldwin,et al. Molecular interactions between the specialist herbivore Manduca sexta (Lepidoptera, Sphingidae) and its natural host Nicotiana attenuata. II. Accumulation of plant mRNAs in response to insect-derived cues. , 2001, Plant physiology.
[16] J. Browse,et al. The Critical Requirement for Linolenic Acid Is Pollen Development, Not Photosynthesis, in an Arabidopsis Mutant. , 1996, The Plant cell.
[17] E. T. Palva,et al. Jasmonate-dependent induction of indole glucosinolates in Arabidopsis by culture filtrates of the nonspecific pathogen Erwinia carotovora. , 2001, Plant physiology.
[18] Marcel Dicke,et al. Attraction of the specialist parasitoid Cotesia rubecula to Arabidopsis thaliana infested by host or non‐host herbivore species , 2003 .
[19] J. Tumlinson,et al. Quantitative relationships between induced jasmonic acid levels and volatile emission in Zea mays during Spodoptera exigua herbivory , 2003, Planta.
[20] J. Tumlinson,et al. Concerted biosynthesis of an insect elicitor of plant volatiles. , 1998, Proceedings of the National Academy of Sciences of the United States of America.
[21] J. Sánchez-Serrano,et al. Hydroperoxide lyase depletion in transgenic potato plants leads to an increase in aphid performance , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[22] X. Cui,et al. Statistical tests for differential expression in cDNA microarray experiments , 2003, Genome Biology.
[23] J. Loon,et al. Contact chemoreception of oviposition‐stimulating glucosinolates and an oviposition‐deterrent cardenolide in two subspecies of Pieris napi , 1995 .
[24] J. H. Tumlinson,et al. Herbivore-infested plants selectively attract parasitoids , 1998, Nature.
[25] Jing Li,et al. The WRKY70 Transcription Factor: A Node of Convergence for Jasmonate-Mediated and Salicylate-Mediated Signals in Plant Defense On-line version contains Web-only data. , 2004, The Plant Cell Online.
[26] D. Robson,et al. Allylglucosinolate and Herbivorous Caterpillars: A Contrast in Toxicity and Tolerance , 1978, Science.
[27] D. Botstein,et al. Cluster analysis and display of genome-wide expression patterns. , 1998, Proceedings of the National Academy of Sciences of the United States of America.
[28] B. Thomma,et al. Concomitant Activation of Jasmonate and Ethylene Response Pathways Is Required for Induction of a Plant Defensin Gene in Arabidopsis , 1998, Plant Cell.
[29] W. Peumans,et al. Lectins as Plant Defense Proteins , 1995, Plant physiology.
[30] J. Loon,et al. Insect-plant biology: from physiology to evolution. , 1998 .
[31] C. Ballaré,et al. Convergent Responses to Stress. Solar Ultraviolet-B Radiation and Manduca sexta Herbivory Elicit Overlapping Transcriptional Responses in Field-Grown Plants of Nicotiana longiflora1[w] , 2003, Plant Physiology.
[32] R. Dixon,et al. Evidence for Chewing Insect-Specific Molecular Events Distinct from a General Wound Response in Leaves , 1997, Plant physiology.
[33] Eran Pichersky,et al. The Tomato Homolog of CORONATINE-INSENSITIVE1 Is Required for the Maternal Control of Seed Maturation, Jasmonate-Signaled Defense Responses, and Glandular Trichome Development Online version contains Web-only data. Article, publication date, and citation information can be found at www.plantcell.org , 2004, The Plant Cell Online.
[34] John D. Storey,et al. Statistical significance for genomewide studies , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[35] J. Jaenike. Host Specialization in Phytophagous Insects , 1990 .
[36] M. Dicke,et al. The Role of Methyl Salicylate in Prey Searching Behavior of the Predatory Mite Phytoseiulus persimilis , 2004, Journal of Chemical Ecology.
[37] G. Howe,et al. An octadecanoid pathway mutant (JL5) of tomato is compromised in signaling for defense against insect attack. , 1996, The Plant cell.
[38] I. Baldwin. Jasmonate-induced responses are costly but benefit plants under attack in native populations. , 1998, Proceedings of the National Academy of Sciences of the United States of America.
[39] I. Baldwin,et al. Molecular interactions between the specialist herbivore Manduca sexta (Lepidoptera, Sphingidae) and its natural host Nicotiana attenuata. IV. Insect-Induced ethylene reduces jasmonate-induced nicotine accumulation by regulating putrescine N-methyltransferase transcripts. , 2001, Plant physiology.
[40] T. Mitchell-Olds,et al. Evidence for regulation of resistance in Arabidopsis to Egyptian cotton worm by salicylic and jasmonic acid signaling pathways , 2001, Planta.
[41] Ho Bang Kim,et al. A knock-out mutation in allene oxide synthase results in male sterility and defective wound signal transduction in Arabidopsis due to a block in jasmonic acid biosynthesis. , 2002, The Plant journal : for cell and molecular biology.
[42] I. Baldwin,et al. Herbivory and caterpillar regurgitants amplify the wound-induced increases in jasmonic acid but not nicotine in Nicotiana sylvestris , 1997, Planta.
[43] P. Reymond. DNA microarrays and plant defence , 2001 .
[44] C. Ryan,et al. Expression of an antisense prosystemin gene in tomato plants reduces resistance toward Manduca sexta larvae. , 1993, Proceedings of the National Academy of Sciences of the United States of America.
[45] B. Kunkel,et al. Cross talk between signaling pathways in pathogen defense. , 2002, Current opinion in plant biology.
[46] P. Raven,et al. BUTTERFLIES AND PLANTS: A STUDY IN COEVOLUTION , 1964 .
[47] Lars Rask,et al. Myrosinase: gene family evolution and herbivore defense in Brassicaceae , 2004, Plant Molecular Biology.
[48] A. Agrawal,et al. A Role for Isothiocyanates in Plant Resistance Against the Specialist Herbivore Pieris rapae , 2003, Journal of Chemical Ecology.
[49] F. Ausubel,et al. Signals Involved in Arabidopsis Resistance toTrichoplusia ni Caterpillars Induced by Virulent and Avirulent Strains of the Phytopathogen Pseudomonas syringae 1 , 2002, Plant Physiology.
[50] L. Walling,et al. The Myriad Plant Responses to Herbivores , 2000, Journal of Plant Growth Regulation.
[51] J. X. Becerra. Synchronous coadaptation in an ancient case of herbivory , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[52] I. Baldwin,et al. Molecular interactions between the specialist herbivore Manduca sexta (Lepidoptera, Sphingidae) and its natural host Nicotiana attenuata. I. Large-scale changes in the accumulation of growth- and defense-related plant mRNAs. , 2001, Plant physiology.
[53] J. Tumlinson,et al. De Novo Biosynthesis of Volatiles Induced by Insect Herbivory in Cotton Plants , 1997, Plant physiology.
[54] E. Weiler,et al. Cloning and characterization of a coronatine-regulated tyrosine aminotransferase from Arabidopsis. , 2001, Plant physiology.
[55] B. Crespi,et al. Host-plant adaptation drives the parallel evolution of reproductive isolation , 2002, Nature.
[56] J. Pickett,et al. Selective induction of glucosinolates in oilseed rape leaves by methyl jasmonate , 1995 .
[57] I. Baldwin,et al. Molecular interactions between the specialist herbivore Manduca sexta (Lepidoptera, Sphingidae) and its natural host Nicotiana attenuata. III. Fatty acid-amino acid conjugates in herbivore oral secretions are necessary and sufficient for herbivore-specific plant responses. , 2001, Plant physiology.
[58] R. Creelman,et al. Jasmonate is essential for insect defense in Arabidopsis. , 1997, Proceedings of the National Academy of Sciences of the United States of America.
[59] J. Tumlinson,et al. Differential Activity and Degradation of Plant Volatile Elicitors in Regurgitant of Tobacco Hornworm (Manduca sexta) Larvae , 2003, Journal of Chemical Ecology.
[60] J. Tumlinson,et al. Plant volatiles as a defense against insect herbivores , 1999, Plant physiology.
[61] J. Murphy,et al. Herbivory: Caterpillar saliva beats plant defences , 2002, Nature.
[62] S. Dudoit,et al. Normalization for cDNA microarray data: a robust composite method addressing single and multiple slide systematic variation. , 2002, Nucleic acids research.
[63] E. Bernays,et al. On the Evolution of Host Specificity in Phytophagous Arthropods , 1988 .
[64] J. Hoheisel,et al. Monitoring the Switch from Housekeeping to Pathogen Defense Metabolism in Arabidopsis thaliana Using cDNA Arrays* , 2002, The Journal of Biological Chemistry.
[65] P. Reymond,et al. Differential Gene Expression in Response to Mechanical Wounding and Insect Feeding in Arabidopsis , 2000, Plant Cell.
[66] T. Dawson,et al. Differential induction of trichomes by three herbivores of black mustard , 2002, Oecologia.
[67] M. Dicke,et al. Induced parasitoid attraction by Arabidopsis thaliana: involvement of the octadecanoid and the salicylic acid pathway. , 2002, Journal of experimental botany.
[68] B. Feys,et al. Arabidopsis Mutants Selected for Resistance to the Phytotoxin Coronatine Are Male Sterile, Insensitive to Methyl Jasmonate, and Resistant to a Bacterial Pathogen. , 1994, The Plant cell.
[69] E. Farmer,et al. Dinor-oxo-phytodienoic acid: a new hexadecanoid signal in the jasmonate family. , 1997, Proceedings of the National Academy of Sciences of the United States of America.
[70] A. Agrawal. INDUCED RESPONSES TO HERBIVORY IN WILD RADISH: EFFECTS ON SEVERAL HERBIVORES AND PLANT FITNESS , 1999 .
[71] Hur-Song Chang,et al. Diverse RNA viruses elicit the expression of common sets of genes in susceptible Arabidopsis thaliana plants. , 2003, The Plant journal : for cell and molecular biology.
[72] A. Hall. Induced Responses to Herbivory. , 1999 .
[73] M. Reichelt,et al. The Arabidopsis Epithiospecifier Protein Promotes the Hydrolysis of Glucosinolates to Nitriles and Influences Trichoplusia ni Herbivory Article, publication date, and citation information can be found at www.plantcell.org/cgi/doi/10.1105/tpc.010261. , 2001, The Plant Cell Online.
[74] J. Tumlinson,et al. An herbivore elicitor activates the gene for indole emission in maize. , 2000, Proceedings of the National Academy of Sciences of the United States of America.
[75] E. Meijden. Plant defence, an evolutionary dilemma: contrasting effects of (specialist and generalist) herbivores and natural enemies , 1996 .
[76] M. Rausher,et al. EXPERIMENTAL MANIPULATION OF PUTATIVE SELECTIVE AGENTS PROVIDES EVIDENCE FOR THE ROLE OF NATURAL ENEMIES IN THE EVOLUTION OF PLANT DEFENSE , 1997, Evolution; international journal of organic evolution.
[77] F. Ausubel,et al. The TASTY locus on chromosome 1 of Arabidopsis affects feeding of the insect herbivore Trichoplusia ni. , 2001, Plant physiology.
[78] E. Bernays. Evolution of Feeding Behavior in Insect Herbivores , 1998 .
[79] M. Dicke,et al. Herbivore-Induced Volatile Production by Arabidopsis thaliana Leads to Attraction of the Parasitoid Cotesia rubecula: Chemical, Behavioral, and Gene-Expression Analysis , 2001, Journal of Chemical Ecology.
[80] B. Halkier,et al. Modulation of CYP79 Genes and Glucosinolate Profiles in Arabidopsis by Defense Signaling Pathways1 , 2003, Plant Physiology.
[81] M. Farag,et al. Jasmonate‐deficient plants have reduced direct and indirect defences against herbivores , 2002 .
[82] K. Zhu‐Salzman,et al. Transcriptional Regulation of Sorghum Defense Determinants against a Phloem-Feeding Aphid1 , 2004, Plant Physiology.
[83] B Fiala,et al. Extrafloral nectar production of the ant-associated plant, Macaranga tanarius, is an induced, indirect, defensive response elicited by jasmonic acid. , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[84] M. Berenbaum. Chemical mediation of coevolution: Phylogenetic evidence for Apiaceae and associates , 2001 .
[85] T. Mitchell-Olds,et al. Induced plant defense responses against chewing insects. Ethylene signaling reduces resistance of Arabidopsis against Egyptian cotton worm but not diamondback moth. , 2000, Plant physiology.
[86] J. Bergelson,et al. Interactive Effects of Jasmonic Acid, Salicylic Acid, and Gibberellin on Induction of Trichomes in Arabidopsis1 , 2003, Plant Physiology.
[87] A. Agrawal,et al. The ecology and evolution of plant tolerance to herbivory. , 1999, Trends in ecology & evolution.
[88] J. D. Fry. The Evolution of Host Specialization: Are Trade-Offs Overrated? , 1996, The American Naturalist.
[89] G. Thompson,et al. Gene expression profiling of Arabidopsis thaliana in compatible plant-aphid interactions. , 2002, Archives of insect biochemistry and physiology.
[90] T. Hartmann,et al. Biosynthesis and Metabolism of Pyrrolizidine Alkaloids in Plants and Specialized Insect Herbivores , 2000 .
[91] D. Kliebenstein,et al. Disarming the mustard oil bomb , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[92] S. Somerville,et al. Coordinated plant defense responses in Arabidopsis revealed by microarray analysis. , 2000, Proceedings of the National Academy of Sciences of the United States of America.
[93] R. Liechti,et al. The Jasmonate Pathway , 2002, Science.
[94] Ted C. J. Turlings,et al. An Elicitor of Plant Volatiles from Beet Armyworm Oral Secretion , 1997 .
[95] H. Barnett. Plant Disease Resistance , 1959 .
[96] J. V. van Loon,et al. GC-EAG-analysis of volatiles from Brussels sprouts plants damaged by two species of Pieris caterpillars: olfactory receptive range of a specialist and a generalist parasitoid wasp species , 2002, CHEMOECOLOGY.
[97] A. Bent,et al. Probing plant-pathogen interactions and downstream defense signaling using DNA microarrays , 2002, Functional & Integrative Genomics.
[98] Thomas Mitchell-Olds,et al. Comparative analysis of quantitative trait loci controlling glucosinolates, myrosinase and insect resistance in Arabidopsis thaliana. , 2002, Genetics.
[99] A. Agrawal,et al. Induced responses to herbivory and increased plant performance , 1998, Science.