| scholarly article | Q13442814 |
| P356 | DOI | 10.1126/SCIENCE.253.5022.895 |
| P698 | PubMed publication ID | 17751827 |
| P2093 | author name string | Ryan CA | |
| Johnson S | |||
| Pearce G | |||
| Strydom D | |||
| P2860 | cites work | Interplant communication: airborne methyl jasmonate induces synthesis of proteinase inhibitors in plant leaves | Q24556763 |
| Measurement of protein using bicinchoninic acid | Q26778491 | ||
| Abscisic acid is involved in the wound-induced expression of the proteinase inhibitor II gene in potato and tomato. | Q34325483 | ||
| Proteinase inhibitor-inducing factor activity in tomato leaves resides in oligosaccharides enzymically released from cell walls | Q35377586 | ||
| Data processing for radial immunodiffusion | Q36512338 | ||
| Processing of pro-hormone precursor proteins | Q38736923 | ||
| Enzymes required for yeast prohormone processing | Q39644456 | ||
| The immobility of pectic substances in injured tomato leaves and its bearing on the identity of the wound hormone | Q44044456 | ||
| Glutathione causes a massive and selective induction of plant defense genes | Q46257216 | ||
| Quantitative determination of soluble cellular proteins by radial diffusion in agar gels containing antibodies | Q47707489 | ||
| Regulation of synthesis of proteinase inhibitors I and II mRNAs in leaves of wounded tomato plants | Q47720584 | ||
| Wound-Induced Proteinase Inhibitor in Plant Leaves: A Possible Defense Mechanism against Insects. | Q52683811 | ||
| Isolation and Characterization of an Elicitor of Necrosis Isolated from Intercellular Fluids of Compatible Interactions of Cladosporium fulvum (Syn. Fulvia fulva) and Tomato. | Q54453233 | ||
| P433 | issue | 5022 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 895-897 | |
| P577 | publication date | 1991-08-01 | |
| P1433 | published in | Science | Q192864 |
| P1476 | title | A polypeptide from tomato leaves induces wound-inducible proteinase inhibitor proteins | |
| P478 | volume | 253 |
| Q48039169 | A -308 deletion of the tomato LAP promoters is able to direct flower-specific and MeJA-induced expression in transgenic plants. |
| Q78132407 | A 160-kD systemin receptor on the surface of lycopersicon peruvianum suspension-cultured cells |
| Q44613166 | A Semidwarf Phenotype of Barley uzu Results from a Nucleotide Substitution in the Gene Encoding a Putative Brassinosteroid Receptor |
| Q74789791 | A Sulfhydryl Reagent Modulates Systemic Signaling for Wound-Induced and Systemin-Induced Proteinase Inhibitor Synthesis |
| Q104581359 | A Tailored High-Efficiency Sample Pretreatment Method for Simultaneous Quantification of 10 Classes of Known Endogenous Phytohormones |
| Q30796197 | A calcium-dependent protein kinase is systemically induced upon wounding in tomato plants |
| Q35934353 | A cut above the rest: the regulatory function of plant proteases |
| Q48100050 | A family of wound-induced genes in Populus shares common features with genes encoding vegetative storage proteins |
| Q48047874 | A gene encoding a chloroplast-targeted lipoxygenase in tomato leaves is transiently induced by wounding, systemin, and methyl jasmonate |
| Q33507314 | A gene expression analysis of syncytia laser microdissected from the roots of the Glycine max (soybean) genotype PI 548402 (Peking) undergoing a resistant reaction after infection by Heterodera glycines (soybean cyst nematode). |
| Q30818797 | A homolog of old yellow enzyme in tomato. Spectral properties and substrate specificity of the recombinant protein. |
| Q32150501 | A novel gene of tomato preferentially expressed in fruit encodes a protein with a Ca2+-dependent lipid-binding domain |
| Q53882279 | A novel tomato gene that rapidly responds to wound- and pathogen-related signals. |
| Q35922281 | A salt-regulated peptide derived from the CAP superfamily protein negatively regulates salt-stress tolerance in Arabidopsis. |
| Q40443056 | A subtilisin-like serine protease involved in the regulation of stomatal density and distribution in Arabidopsis thaliana |
| Q43220778 | A tomato enzyme synthesizes (+)-7-iso-jasmonoyl-L-isoleucine in wounded leaves |
| Q36817710 | A wound-inducible gene from Salix viminalis coding for a trypsin inhibitor |
| Q83232547 | A wound-inducible potato proteinase inhibitor gene expressed in non-tuber-bearing species is not sucrose inducible |
| Q55056161 | Accurate and easy method for systemin quantification and examining metabolic changes under different endogenous levels. |
| Q54147342 | Action of proteolysis-resistant systemin analogues in wound signalling. |
| Q44522426 | Activation of a novel transcription factor through phosphorylation by WIPK, a wound-induced mitogen-activated protein kinase in tobacco plants |
| Q63241313 | Additional Signalling Compounds are Required to Orchestrate Plant Development |
| Q43695532 | Alternative splicing of prosystemin pre-mRNA produces two isoforms that are active as signals in the wound response pathway |
| Q42011481 | An amino acid substitution inhibits specialist herbivore production of an antagonist effector and recovers insect-induced plant defenses |
| Q50421774 | An apoplastic peptide activates salicylic acid signalling in maize |
| Q33360716 | An auxin responsive CLE gene regulates shoot apical meristem development in Arabidopsis |
| Q40734161 | An extracellular aspartic protease functions in Arabidopsis disease resistance signaling |
| Q36035394 | An improved high-throughput screening assay for tunicamycin sensitivity in Arabidopsis seedlings |
| Q42063416 | An octadecanoid pathway mutant (JL5) of tomato is compromised in signaling for defense against insect attack |
| Q47732029 | Analysis of binding of biotinylated protoplast-release-inducing protein that induces release of gametic protoplasts in the Closterium peracerosum-strigosum-littorale complex |
| Q44866089 | Analysis of the transient increase in cytosolic Ca2+ during the action potential of higher plants with high temporal resolution: requirement of Ca2+ transients for induction of jasmonic acid biosynthesis and PINII gene expression |
| Q37973000 | Analytical methods for tracing plant hormones |
| Q64260059 | Application of Data-Independent Acquisition Approach to Study the Proteome Change from Early to Later Phases of Tomato Pathogenesis Responses |
| Q46669745 | Arabidopsis BRS1 is a secreted and active serine carboxypeptidase |
| Q90132208 | Arabidopsis H+-ATPase AHA1 controls slow wave potential duration and wound-response jasmonate pathway activation |
| Q32036730 | Arabidopsis MDR genes: molecular cloning and protein chemical aspects |
| Q24801937 | Arabidopsis genome sequence as a tool for functional genomics in tomato |
| Q47889123 | Arabidopsis thaliana AtHAL3: a flavoprotein related to salt and osmotic tolerance and plant growth |
| Q42065922 | Association of a 33-Kilodalton Cysteine Proteinase Found in Corn Callus with the Inhibition of Fall Armyworm Larval Growth |
| Q51585234 | Bestatin, an inhibitor of aminopeptidases, provides a chemical genetics approach to dissect jasmonate signaling in Arabidopsis. |
| Q61961633 | Bioactive peptides as signal molecules in plant defense, growth, and development |
| Q38359061 | Blufensin1 negatively impacts basal defense in response to barley powdery mildew |
| Q54104402 | C6-volatiles derived from the lipoxygenase pathway induce a subset of defense-related genes. |
| Q33360973 | CLE peptide signaling in plants - the power of moving around |
| Q33354203 | CLE peptides in plants: proteolytic processing, structure-activity relationship, and ligand-receptor interaction |
| Q33354499 | CLE signaling systems during plant development and nematode infection |
| Q31146627 | Ca2+ influx into lily pollen grains through a hyperpolarization-activated Ca2+-permeable channel which can be regulated by extracellular CaM. |
| Q91797498 | Capillary electrophoresis study of systemin peptides spreading in tomato plant |
| Q42528673 | Cell death processes during expression of hybrid lethality in interspecific F1 hybrid between Nicotiana gossei Domin and Nicotiana tabacum |
| Q35837123 | Cell interactions in plants. |
| Q26823374 | Cell walls as a stage for intercellular communication regulating shoot meristem development |
| Q28274356 | Changes in extracellular pH are neither required nor sufficient for activation of mitogen-activated protein kinases (MAPKs) in response to systemin and fusicoccin in tomato |
| Q28818764 | Characterization and Comparative Expression Profiling of Browning Response in Medinilla formosana after Cutting |
| Q74770296 | Characterization of a Diffusible Signal Capable of Inducing Defense Gene Expression in Tobacco |
| Q40914931 | Chemical regulation of transgene expression in plants |
| Q48134369 | Circadian expression and induction by wounding of tobacco genes for cysteine proteinase |
| Q30681385 | Cloning, expression, and characterization of tomato (Lycopersicon esculentum) aminopeptidase P. |
| Q35533768 | Comparative analysis of the RTFL peptide family on the control of plant organogenesis. |
| Q33606231 | Comparative transcriptional profiling-based identification of raphanusanin-inducible genes |
| Q44432711 | Comprehensive chemical derivatization for gas chromatography-mass spectrometry-based multi-targeted profiling of the major phytohormones |
| Q54238173 | Conditioning of Parsley (Petroselinum crispum L.) Suspension Cells Increases Elicitor-Induced Incorporation of Cell Wall Phenolics. |
| Q34338164 | Construction of cold induced subtracted cDNA library from Cicer microphyllum and transcript characterization of identified novel wound induced gene |
| Q38897793 | Control of systemically induced herbivore resistance by plant vascular architecture. |
| Q83232621 | Convergent Induction of Osmotic Stress-Responses : Abscisic Acid, Cytokinin, and the Effects of NaCl |
| Q42518559 | Copper amine oxidase expression in defense responses to wounding and Ascochyta rabiei invasion |
| Q42034095 | Cowpea chloroplastic ATP synthase is the source of multiple plant defense elicitors during insect herbivory |
| Q28066924 | DAMPs, MAMPs, and NAMPs in plant innate immunity |
| Q35746615 | DVL genes play a role in the coordination of socket cell recruitment and differentiation. |
| Q64965376 | Damage-Associated Molecular Pattern-Triggered Immunity in Plants. |
| Q39121094 | Damage-induced resistance in sagebrush: volatiles are key to intra- and interplant communication |
| Q43607280 | DcAGP1, a secreted arabinogalactan protein, is related to a family of basic proline-rich proteins |
| Q38960929 | Decoding sORF translation - from small proteins to gene regulation |
| Q54624258 | Detection of immunologically related Kunitz and Bowman-Birk proteinase inhibitors expressed during potato tuber development. |
| Q33365163 | Differential CLE peptide perception by plant receptors implicated from structural and functional analyses of TDIF-TDR interactions. |
| Q74788536 | Differential Expression of Two Soybean (Glycine max L.) Proline-Rich Protein Genes after Wounding |
| Q34029515 | Distinct roles for jasmonate synthesis and action in the systemic wound response of tomato |
| Q77162501 | Diversity of Arabidopsis genes encoding precursors for phytosulfokine, a peptide growth factor |
| Q40734828 | Double-stranded RNAs induce a pattern-triggered immune signaling pathway in plants |
| Q47851185 | Electrical and chemical signals involved in short-term systemic photosynthetic responses of tobacco plants to local burning |
| Q56212358 | Electrical signalling and systemic proteinase inhibitor induction in the wounded plant |
| Q38827922 | Electrical signals as mechanism of photosynthesis regulation in plants. |
| Q74285080 | Electrophysiological characterization of tomato hypocotyl putative action potentials induced by cotyledon heating |
| Q35303507 | Emerging strategies for enhancing crop resistance to microbial pathogens |
| Q52599019 | Evidence for Chewing Insect-Specific Molecular Events Distinct from a General Wound Response in Leaves. |
| Q48084746 | Evolution of a basic helix-loop-helix protein from a transcriptional repressor to a plastid-resident regulatory factor: involvement in hypersensitive cell death in tobacco plants |
| Q42172043 | Exogenous systemin has a contrasting effect on disease resistance in mycorrhizal tomato (Solanum lycopersicum) plants infected with necrotrophic or hemibiotrophic pathogens. |
| Q39121087 | Experimental clipping of sagebrush inhibits seed germination of neighbours |
| Q37714922 | Expression analysis of chitinase upon challenge inoculation to Alternaria wounding and defense inducers in Brassica juncea |
| Q47945721 | Expression and cellular localization of Atrab28 during arabidopsis embryogenesis |
| Q73663726 | Expression of allene oxide synthase determines defense gene activation in tomato |
| Q24561620 | Expression of an antisense prosystemin gene in tomato plants reduces resistance toward Manduca sexta larvae |
| Q48147256 | Expression of antisense or sense RNA of an ankyrin repeat-containing gene blocks chloroplast differentiation in arabidopsis |
| Q48060951 | Expression of genes for a defensin and a proteinase inhibitor in specific areas of the shoot apex and the developing flower in tomato |
| Q38932882 | Expression of the Arabidopsis abi1-1 mutant allele inhibits proteinase inhibitor wound-induction in tomato. |
| Q47379177 | Expression of tomato prosystemin gene in Arabidopsis reveals systemic translocation of its mRNA and confers necrotrophic fungal resistance. |
| Q49687319 | Expression of two barley proteinase inhibitors in tomato promotes endogenous defensive response and enhances resistance to Tuta absoluta |
| Q40594412 | Fatty acid signalling in plants and their associated microorganisms |
| Q34695548 | Fragments of ATP synthase mediate plant perception of insect attack. |
| Q38931326 | Function of Hevea brasiliensis NAC1 in dehydration-induced laticifer differentiation and latex biosynthesis |
| Q58480250 | Functional analysis of a Golgi-localized Kex2p-like protease in tobacco suspension culture cells |
| Q48086821 | Functional analysis of a leucine aminopeptidase from Solanum tuberosum L. |
| Q38386888 | Functional genomics of tomato for the study of plant immunity |
| Q43902981 | Fusion genetic analysis of jasmonate-signalling mutants in Arabidopsis |
| Q48351959 | GAD1 Encodes a Secreted Peptide That Regulates Grain Number, Grain Length, and Awn Development in Rice Domestication. |
| Q31032680 | Gain-of-function phenotypes of many CLAVATA3/ESR genes, including four new family members, correlate with tandem variations in the conserved CLAVATA3/ESR domain |
| Q41651135 | Gene silencing: cosuppression at a distance |
| Q67551399 | General roles of abscisic and jasmonic acids in gene activation as a result of mechanical wounding |
| Q35812411 | Generation of systemin signaling in tobacco by transformation with the tomato systemin receptor kinase gene |
| Q77183503 | Glutathione metabolic genes coordinately respond to heavy metals and jasmonic acid in Arabidopsis |
| Q33866825 | GmPep914, an eight-amino acid peptide isolated from soybean leaves, activates defense-related genes |
| Q34228101 | Grasshopper crop and midgut extract effects on plants: an example of reward feedback |
| Q41993305 | Herbivore-Triggered Electrophysiological Reactions: Candidates for Systemic Signals in Higher Plants and the Challenge of Their Identification. |
| Q61762133 | Herbivory induces systemic production of plant volatiles that attract predators of the herbivore: Extraction of endogenous elicitor |
| Q46890558 | High frequency (900 MHz) low amplitude (5 V m-1) electromagnetic field: a genuine environmental stimulus that affects transcription, translation, calcium and energy charge in tomato |
| Q37215740 | Hydrogen peroxide is generated systemically in plant leaves by wounding and systemin via the octadecanoid pathway |
| Q93103326 | Identification and Functional Analysis of the CLAVATA3/EMBRYO SURROUNDING REGION (CLE) Gene Family in Wheat |
| Q93072553 | Identification and Functional Investigation of Genome-Encoded, Small, Secreted Peptides in Plants |
| Q93016667 | Identification of Potential Auxin-Responsive Small Signaling Peptides through a Peptidomics Approach in Arabidopsis thaliana |
| Q24564588 | Identification of a 50-kDa systemin-binding protein in tomato plasma membranes having Kex2p-like properties |
| Q46226431 | Identification of an apoplastic protein involved in the initial phase of salt stress response in rice root by two-dimensional electrophoresis |
| Q91844633 | Identification of endogenous small peptides involved in rice immunity through transcriptomics- and proteomics-based screening |
| Q38474617 | Identification of small secreted peptides (SSPs) in maize and expression analysis of partial SSP genes in reproductive tissues |
| Q92511928 | In Silico Phylogenetic and Structural Analyses of Plant Endogenous Danger Signaling Molecules upon Stress |
| Q34019961 | In-capillary non-covalent labeling and determination of tomato systemin with quantum dots in capillary electrophoresis with laser-induced fluorescence detection |
| Q61762138 | Induced defence in detached uninfested plant leaves: effects on behaviour of herbivores and their predators |
| Q34521621 | Induced systemic resistance (ISR) against pathogens in the context of induced plant defences |
| Q47916982 | Induction of Expression of Genes Coding for Sporamin and beta-Amylase by Polygalacturonic Acid in Leaf-Petiole Cuttings of Sweet Potato |
| Q42692471 | Induction of a proteinase inhibitor II-class gene by auxin in tomato roots |
| Q70820219 | Induction of wound response genes in tomato leaves by bestatin, an inhibitor of aminopeptidases |
| Q42071074 | Influence of cabbage proteinase inhibitorsin situ on the growth of larvalTrichoplusia ni andPieris rapae |
| Q46953847 | Interactions between the jasmonic and salicylic acid pathway modulate the plant metabolome and affect herbivores of different feeding types |
| Q52184560 | Intercellular protein trafficking through plasmodesmata. |
| Q46221298 | Interorgan regulation of ethylene biosynthetic genes by pollination |
| Q52183608 | Involvement of an ABC transporter in a developmental pathway regulating hypocotyl cell elongation in the light |
| Q43875342 | Involvement of phytosulfokine in the attenuation of stress response during the transdifferentiation of zinnia mesophyll cells into tracheary elements. |
| Q57448568 | Involvement of the Octadecanoid Pathway and Protein Phosphorylation in Fungal Elicitor-Induced Expression of Terpenoid Indole Alkaloid Biosynthetic Genes inCatharanthus roseus |
| Q71006953 | Is membrane potential involved in calmodulin gene expression after external stimulation in plants? |
| Q83273190 | Isolation and Characterization of UMP Synthase Mutants from Haploid Cell Suspensions of Nicotiana tabacum |
| Q48062768 | Isolation and characterization of a novel BcMF14 gene from Brassica campestris ssp. chinensis |
| Q28243214 | Isolation and characterization of hydroxyproline-rich glycopeptide signals in black nightshade leaves |
| Q72665946 | Isolation of signaling mutants of tomato (Lycopersicon esculentum) |
| Q40628150 | JIPs and RIPs: the regulation of plant gene expression by jasmonates in response to environmental cues and pathogens |
| Q36773611 | Jasmonate is essential for insect defense in Arabidopsis |
| Q83273226 | Jasmonate, genes, and fragrant signals |
| Q34086685 | Jasmonate-triggered plant immunity |
| Q36402800 | Jasmonate: an oxylipin signal with many roles in plants |
| Q34806642 | Jasmonates and octadecanoids: signals in plant stress responses and development |
| Q30317845 | Jasmonates: biosynthesis, perception, signal transduction and action in plant stress response, growth and development. An update to the 2007 review in Annals of Botany |
| Q92348235 | Jasmonic Acid Signaling Pathway in Plants |
| Q24635115 | Jasmonic acid carboxyl methyltransferase: a key enzyme for jasmonate-regulated plant responses |
| Q34305623 | Jasmonic acid distribution and action in plants: regulation during development and response to biotic and abiotic stress |
| Q36899251 | Jasmonic acid is a signal transducer in elicitor-induced plant cell cultures |
| Q73817056 | Jasmonic acid-dependent and -independent signaling pathways control wound-induced gene activation in Arabidopsis thaliana |
| Q43280192 | Kinetics of the accumulation of jasmonic acid and its derivatives in systemic leaves of tobacco (Nicotiana tabacum cv. Xanthi nc) and translocation of deuterium-labeled jasmonic acid from the wounding site to the systemic site |
| Q52544004 | Laser microsurgery of higher plant cell walls permits patch-clamp access. |
| Q33368196 | Last exit: senescence, abscission, and meristem arrest in Arabidopsis |
| Q34420577 | LeRALF, a plant peptide that regulates root growth and development, specifically binds to 25 and 120 kDa cell surface membrane proteins of Lycopersicon peruvianum |
| Q41684801 | Leucine aminopeptidase RNAs, proteins, and activities increase in response to water deficit, salinity, and the wound signals systemin, methyl jasmonate, and abscisic acid |
| Q36621169 | Leucine aminopeptidase: an inducible component of the defense response in Lycopersicon esculentum (tomato). |
| Q36583855 | Lipochitooligosaccharide-induced tobacco cells release a peptide as mediator of the glycolipid signal |
| Q42639264 | Localization and post-translational processing of the wound-induced leucine aminopeptidase proteins of tomato |
| Q53004474 | Localized Wounding by Heat Initiates the Accumulation of Proteinase Inhibitor II in Abscisic Acid-Deficient Plants by Triggering Jasmonic Acid Biosynthesis. |
| Q47095564 | Long-Distance Transport of Prosystemin Messenger RNA in Tomato |
| Q34503990 | Long-distance CO(2) signalling in plants |
| Q38110541 | MAMP (microbe-associated molecular pattern) triggered immunity in plants. |
| Q34329329 | Macromolecular transport and signaling through plasmodesmata |
| Q38234952 | Maturation processes and structures of small secreted peptides in plants |
| Q52753202 | Mechanisms and Strategies Shaping Plant Peptide Hormones. |
| Q35644236 | Mechanisms and ecological consequences of plant defence induction and suppression in herbivore communities |
| Q34342037 | Methanol and ethanol modulate responses to danger- and microbe-associated molecular patterns |
| Q74789249 | Methyl Jasmonate Induces Papain Inhibitor(s) in Tomato Leaves |
| Q111346476 | Methyl jasmonate induced responses in four plant species and its effect on Spodoptera litura Fab. performance |
| Q46869089 | Micro-electrode flux estimation confirms that the Solanum pimpinellifolium cu3 mutant still responds to systemin. |
| Q41590813 | Microarray analysis of tomato plants exposed to the nonviruliferous or viruliferous whitefly vector harboring Pepper golden mosaic virus |
| Q47916493 | Migration of the Fungal Protein Cryptogein within Tobacco Plants |
| Q34073341 | Mitogen-activated protein [MAP] kinase pathways in plants: versatile signaling tools |
| Q34384201 | Modification of phytohormone response by a peptide encoded by ENOD40 of legumes and a nonlegume |
| Q61961641 | Modulation of Plasma Membrane H+-ATPase Activity Differentially Activates Wound and Pathogen Defense Responses in Tomato Plants |
| Q36824019 | Molecular cloning of a tomato leaf cDNA encoding an aspartic protease, a systemic wound response protein |
| Q86624211 | Movement and metabolism of oligogalacturonide elicitors in tomato shoots |
| Q36523821 | Multiple phytohormone signalling pathways modulate susceptibility of tomato plants to Alternaria alternata f. sp. lycopersici |
| Q36615976 | Myelin basic protein kinase activity in tomato leaves is induced systemically by wounding and increases in response to systemin and oligosaccharide elicitors |
| Q73263801 | N-Acylethanolamines in signal transduction of elicitor perception. Attenuation Of alkalinization response and activation of defense gene expression |
| Q38037318 | Natural elicitors, effectors and modulators of plant responses |
| Q48135731 | Nucleotide sequence of a cDNA clone encoding tomato (Lycopersicon esculentum) cysteine proteinase. |
| Q44151621 | Octadecanoid Precursors of Jasmonic Acid Activate the Synthesis of Wound-Inducible Proteinase Inhibitors |
| Q34304283 | Oligogalacturonides and chitosan activate plant defensive genes through the octadecanoid pathway |
| Q34873033 | Oligosaccharide signals: from plant defense to parasite offense |
| Q40888927 | Oligosaccharins, brassinolides, and jasmonates: nontraditional regulators of plant growth, development, and gene expression |
| Q36491599 | OrysPSSP: a comparative platform for small secreted proteins from rice and other plants |
| Q24648690 | Oryza sativa PSK gene encodes a precursor of phytosulfokine-alpha, a sulfated peptide growth factor found in plants |
| Q39177103 | Overexpression of OsDT11, which encodes a novel cysteine-rich peptide, enhances drought tolerance and increases ABA concentration in rice |
| Q24563533 | Overexpression of the prosystemin gene in transgenic tomato plants generates a systemic signal that constitutively induces proteinase inhibitor synthesis |
| Q59052488 | Pathogen-induced systemic plant signal triggers DNA rearrangements |
| Q33948849 | Peptide signaling in plants |
| Q34460018 | Peptide signals and their receptors in higher plants |
| Q28256299 | Peptide signals for plant defense display a more universal role |
| Q26849693 | Peptides and small molecules of the plant-pathogen apoplastic arena |
| Q42422384 | Peptides take centre stage in plant signaling. Preface. |
| Q38838171 | Phytaspase-mediated precursor processing and maturation of the wound hormone systemin |
| Q37062129 | Phytohormone-based activity mapping of insect herbivore-produced elicitors. |
| Q77384684 | Phytooxylipins and plant defense reactions |
| Q24622785 | Phytosulfokine, sulfated peptides that induce the proliferation of single mesophyll cells of Asparagus officinalis L |
| Q34018998 | Phytosulfokine-alpha, a peptide growth factor found in higher plants: its structure, functions, precursor and receptors |
| Q36727782 | Phytosulfokine-alpha, a sulfated pentapeptide, stimulates the proliferation of rice cells by means of specific high- and low-affinity binding sites. |
| Q28575408 | Plant Defense against Insect Herbivores |
| Q92875168 | Plant Leucine-Rich Repeat Receptor Kinase (LRR-RK): Structure, Ligand Perception, and Activation Mechanism |
| Q92926012 | Plant Polypeptide Hormone Systemin Prefers Polyproline II Conformation in Solution |
| Q44647222 | Plant age, communication, and resistance to herbivores: young sagebrush plants are better emitters and receivers |
| Q57043882 | Plant bioactive peptides: an expanding class of signaling molecules |
| Q40247925 | Plant cell wall proteomics: the leadership of Arabidopsis thaliana |
| Q36747685 | Plant elicitor peptides are conserved signals regulating direct and indirect antiherbivore defense |
| Q38177724 | Plant genetic engineering for crop improvement |
| Q80811806 | Plant interactions with arthropod herbivores: state of the field |
| Q34375768 | Plant peptide hormones: The long and the short of it. |
| Q34033470 | Plant receptor kinases: systemin receptor identified |
| Q48304201 | Plant-to-plant communication triggered by systemin primes anti-herbivore resistance in tomato |
| Q33538835 | Plants embrace a stepchild: the discovery of peptide growth regulators |
| Q44894567 | Plasma membrane depolarization induced by abscisic acid in Arabidopsis suspension cells involves reduction of proton pumping in addition to anion channel activation, which are both Ca2+ dependent |
| Q74229526 | Polypeptide hormones |
| Q35173872 | Polypeptide hormones: signaling molecules in plants |
| Q37223454 | Polypeptide signaling for plant defensive genes exhibits analogies to defense signaling in animals |
| Q54942115 | Post-translational maturation of IDA, a peptide signal controlling floral organ abscission in Arabidopsis. |
| Q59030761 | Potential awareness of plants |
| Q71990226 | Processing and secretion of a virally encoded antifungal toxin in transgenic tobacco plants: evidence for a Kex2p pathway in plants |
| Q48353380 | Production of multiple plant hormones from a single polyprotein precursor |
| Q36001465 | Prosystemin Overexpression in Tomato Enhances Resistance to Different Biotic Stresses by Activating Genes of Multiple Signaling Pathways. |
| Q28263365 | Prosystemin from potato, black nightshade, and bell pepper: primary structure and biological activity of predicted systemin polypeptides |
| Q36275649 | Prosystemin overexpression induces transcriptional modifications of defense-related and receptor-like kinase genes and reduces the susceptibility to Cucumber mosaic virus and its satellite RNAs in transgenic tomato plants. |
| Q47371568 | Prosystemin, a prohormone that modulates plant defense barriers, is an intrinsically disordered protein. |
| Q63640913 | Protein phosphorylation and dephosphorylation in environmental stress responses in plants |
| Q36564859 | Proteinase inhibitor-inducing activity of the prohormone prosystemin resides exclusively in the C-terminal systemin domain |
| Q41288801 | Proteolysis in plants: mechanisms and functions |
| Q35545706 | Proteomic analyses of apoplastic proteins from germinating Arabidopsis thaliana pollen |
| Q67504006 | Proton NMR assignments of systemin |
| Q72242916 | Purification and characterization from tobacco (Nicotiana tabacum) leaves of six small, wound-inducible, proteinase isoinhibitors of the potato inhibitor II family |
| Q46385610 | Quantitative Detection of Trace Systemins in Solanaceous Plants by Immunoaffinity Purification Combined with Liquid Chromatography/Electrospray Quadrupole Time-of-Flight Mass Spectrometry |
| Q46427445 | Quantitative peptidomics study reveals that a wound-induced peptide from PR-1 regulates immune signaling in tomato |
| Q24555130 | RALF, a 5-kDa ubiquitous polypeptide in plants, arrests root growth and development |
| Q31131742 | Rapid alkalinization factors in poplar cell cultures. Peptide isolation, cDNA cloning, and differential expression in leaves and methyl jasmonate-treated cells |
| Q42478584 | Rapid and systemic accumulation of chloroplast mRNA-binding protein transcripts after flame stimulus in tomato |
| Q38168898 | Receptor-like kinases in plant innate immunity |
| Q37398658 | Receptor-mediated signalling in plants: molecular patterns and programmes. |
| Q42005717 | Reciprocal responses in the interaction between Arabidopsis and the cell-content-feeding chelicerate herbivore spider mite |
| Q47917449 | Regulation of expression of proteinase inhibitor genes by methyl jasmonate and jasmonic Acid |
| Q35181815 | Regulation of jasmonate-mediated plant responses in arabidopsis |
| Q90746875 | Research advances in plant-insect molecular interaction |
| Q37350835 | Role of plant hormones in plant defence responses |
| Q37854291 | Role of the extensin superfamily in primary cell wall architecture |
| Q35069196 | Role of tomato lipoxygenase D in wound-induced jasmonate biosynthesis and plant immunity to insect herbivores |
| Q33533487 | STIL, a peculiar molecule from styles, specifically dephosphorylates the pollen receptor kinase LePRK2 and stimulates pollen tube growth in vitro |
| Q74781779 | Salicylic Acid Inhibits Synthesis of Proteinase Inhibitors in Tomato Leaves Induced by Systemin and Jasmonic Acid |
| Q44545733 | Salt stress activation of wound-related genes in tomato plants |
| Q77222196 | Searching for Signals |
| Q52844442 | Signal transduction and regulation of IbpreproHypSys in sweet potato. |
| Q40851319 | Signal transduction in the wound response of tomato plants |
| Q34305067 | Signals involved in wound-induced proteinase inhibitor II gene expression in tomato and potato plants |
| Q28270058 | Six peptide wound signals derived from a single precursor protein in Ipomoea batatas leaves activate the expression of the defense gene sporamin |
| Q35710532 | Small post-translationally modified Peptide signals in Arabidopsis. |
| Q38038977 | Small signaling peptides in Arabidopsis development: how cells communicate over a short distance |
| Q24534818 | Soybean ENOD40 encodes two peptides that bind to sucrose synthase |
| Q39129234 | Structural and functional characteristics of plant proteinase inhibitor-II (PI-II) family. |
| Q27640943 | Structural basis of inhibition revealed by a 1:2 complex of the two-headed tomato inhibitor-II and subtilisin Carlsberg |
| Q40594450 | Structure and function of the receptor-like protein kinases of higher plants |
| Q37286379 | Sugarcane Serine Peptidase Inhibitors, Serine Peptidases, and Clp Protease System Subunits Associated with Sugarcane Borer (Diatraea saccharalis) Herbivory and Wounding |
| Q92973296 | Sulfated plant peptide hormones |
| Q34608178 | Suppressors of systemin signaling identify genes in the tomato wound response pathway. |
| Q28142406 | Suramin inhibits initiation of defense signaling by systemin, chitosan, and a beta-glucan elicitor in suspension-cultured Lycopersicon peruvianum cells |
| Q36209188 | Surveying the potential of secreted antimicrobial peptides to enhance plant disease resistance |
| Q46529170 | Systemic acquired tolerance to virulent bacterial pathogens in tomato. |
| Q72862353 | Systemic induction of a potato pin2 promoter by wounding, methyl jasmonate, and abscisic acid in transgenic rice plants |
| Q31142102 | Systemic signaling in tomato plants for defense against herbivores. Isolation and characterization of three novel defense-signaling glycopeptide hormones coded in a single precursor gene |
| Q34066814 | Systemic wound signaling in plants: a new perception. |
| Q28250927 | Systemic wound signaling in tomato leaves is cooperatively regulated by systemin and hydroxyproline-rich glycopeptide signals |
| Q34762934 | Systemin activates synthesis of wound-inducible tomato leaf polyphenol oxidase via the octadecanoid defense signaling pathway |
| Q42019275 | Systemin and jasmonic acid regulate constitutive and herbivore-induced systemic volatile emissions in tomato, Solanum lycopersicum |
| Q43684365 | Systemin in Solanum nigrum. The tomato-homologous polypeptide does not mediate direct defense responses |
| Q47851386 | Systemin potentiates the oxidative burst in cultured tomato cells |
| Q57748455 | Systemin triggers an increase of cytoplasmic calcium in tomato mesophyll cells: Ca2+ mobilization from intra- and extracellular compartments |
| Q24619394 | Systemins: a functionally defined family of peptide signals that regulate defensive genes in Solanaceae species |
| Q33341430 | The 14-amino acid CLV3, CLE19, and CLE40 peptides trigger consumption of the root meristem in Arabidopsis through a CLAVATA2-dependent pathway |
| Q33342726 | The CLAVATA3/ESR motif of CLAVATA3 is functionally independent from the nonconserved flanking sequences |
| Q33352957 | The Function of the CLE Peptides in Plant Development and Plant-Microbe Interactions |
| Q46355405 | The IDA-LIKE peptides IDL6 and IDL7 are negative modulators of stress responses in Arabidopsis thaliana |
| Q40848638 | The IDA/IDA-LIKE and PIP/PIP-LIKE gene families in Arabidopsis: phylogenetic relationship, expression patterns, and transcriptional effect of the PIPL3 peptide. |
| Q48288558 | The POLARIS gene of Arabidopsis encodes a predicted peptide required for correct root growth and leaf vascular patterning |
| Q26798091 | The Plant Peptidome: An Expanding Repertoire of Structural Features and Biological Functions |
| Q36311757 | The RLK/Pelle family of kinases |
| Q92355080 | The Systemin Signaling Cascade As Derived from Time Course Analyses of the Systemin-responsive Phosphoproteome |
| Q48156235 | The TMK1 gene from Arabidopsis codes for a protein with structural and biochemical characteristics of a receptor protein kinase |
| Q35137987 | The adaptation of insects to plant protease inhibitors. |
| Q28247111 | The cell surface leucine-rich repeat receptor for AtPep1, an endogenous peptide elicitor in Arabidopsis, is functional in transgenic tobacco cells |
| Q57532755 | The ecology and evolution of induced resistance against herbivores |
| Q42040214 | The expression of the hydroxyproline-rich glycopeptide systemin precursor A in response to (a)biotic stress and elicitors is indicative of its role in the regulation of the wound response in tobacco (Nicotiana tabacum L.). |
| Q33367025 | The fate of inflorescence meristems is controlled by developing fruits in Arabidopsis |
| Q28250726 | The hydroxyproline-rich glycopeptide systemin precursor NapreproHypSys does not play a central role in Nicotiana attenuata's anti-herbivore defense responses |
| Q52165869 | The maize CR4 receptor-like kinase mediates a growth factor-like differentiation response. |
| Q48150719 | The organization of the prosystemin gene |
| Q77183514 | The plant wound hormone systemin binds with the N-terminal part to its receptor but needs the C-terminal part to activate it |
| Q40830655 | The promoter of the plant defensin gene PDF1.2 from Arabidopsis is systemically activated by fungal pathogens and responds to methyl jasmonate but not to salicylic acid |
| Q33334021 | The role of plant peptides in intercellular signalling |
| Q36185431 | The search for the proteinase inhibitor-inducing factor, PIIF. |
| Q35076265 | The sequence flanking the N-terminus of the CLV3 peptide is critical for its cleavage and activity in stem cell regulation in Arabidopsis |
| Q32063154 | The sex-inducing pheromone and wounding trigger the same set of genes in the multicellular green alga Volvox |
| Q37635516 | The subtilisin-like protease SBT3 contributes to insect resistance in tomato. |
| Q34390276 | The systemin precursor gene regulates both defensive and developmental genes in Solanum tuberosum |
| Q34036206 | The systemin receptor SR160 from Lycopersicon peruvianum is a member of the LRR receptor kinase family |
| Q49830430 | The systemin receptor SYR1 enhances resistance of tomato against herbivorous insects. |
| Q28138073 | The systemin signaling pathway: differential activation of plant defensive genes |
| Q28243279 | The tomato brassinosteroid receptor BRI1 increases binding of systemin to tobacco plasma membranes, but is not involved in systemin signaling |
| Q44499538 | The tomato suppressor of prosystemin-mediated responses2 gene encodes a fatty acid desaturase required for the biosynthesis of jasmonic acid and the production of a systemic wound signal for defense gene expression |
| Q43912605 | The tyrosine-sulfated peptide receptors PSKR1 and PSY1R modify the immunity of Arabidopsis to biotrophic and necrotrophic pathogens in an antagonistic manner |
| Q28298770 | Three hydroxyproline-rich glycopeptides derived from a single petunia polyprotein precursor activate defensin I, a pathogen defense response gene |
| Q48129702 | Tobacco proteinase inhibitor I genes are locally, but not systemically induced by stress |
| Q24678059 | Tomato BRASSINOSTEROID INSENSITIVE1 is required for systemin-induced root elongation in Solanum pimpinellifolium but is not essential for wound signaling |
| Q35901131 | Tomato MAPKs LeMPK1, LeMPK2, and LeMPK3 function in the systemin-mediated defense response against herbivorous insects |
| Q52114935 | Tomato Polyphenol Oxidase (Differential Response of the Polyphenol Oxidase F Promoter to Injuries and Wound Signals). |
| Q50664408 | Tools and Strategies to Match Peptide-Ligand Receptor Pairs. |
| Q35781808 | Transgenerational changes in the genome stability and methylation in pathogen-infected plants: (virus-induced plant genome instability). |
| Q24550749 | Translational and structural requirements of the early nodulin gene enod40, a short-open reading frame-containing RNA, for elicitation of a cell-specific growth response in the alfalfa root cortex |
| Q37080036 | Two Different Wound Signals Evoke Very Rapid, Systemic CMBP Transcript Accumulation in Tomato |
| Q27641390 | Unbound form of tomato inhibitor-II reveals interdomain flexibility and conformational variability in the reactive site loops |
| Q38219413 | Uncovering plant-pathogen crosstalk through apoplastic proteomic studies. |
| Q28833176 | Variation potential in higher plants: Mechanisms of generation and propagation |
| Q36767692 | WIP1, a wound-inducible gene from maize with homology to Bowman-Birk proteinase inhibitors |
| Q35845250 | Water-borne cues induce chemical defense in a marine alga (Ascophyllum nodosum) |
| Q47978041 | Wound signaling in tomato plants. Evidence that aba is not a primary signal for defense gene activation |
| Q72991778 | Wound- and systemin-inducible calmodulin gene expression in tomato leaves |
| Q54197675 | Wound-induced changes in root and shoot jasmonic acid pools correlate with induced nicotine synthesis inNicotiana sylvestris spegazzini and comes. |
| Q70721575 | Wound-induced systemic accumulation of a transcript coding for a Bowman-Birk trypsin inhibitor-related protein in maize (Zea mays L.) seedlings |
| Q28365123 | Wound-inducible proteinase inhibitors in pepper. Differential regulation upon wounding, systemin, and methyl jasmonate |
| Q44698306 | ZmPep1, an ortholog of Arabidopsis elicitor peptide 1, regulates maize innate immunity and enhances disease resistance |
Search more.