scholarly article | Q13442814 |
P50 | author | Juliane Merl-Pham | Q85727976 |
Stefanie M. Hauck | Q46916554 | ||
Philip Carella | Q57018544 | ||
Corina Vlot | Q74045433 | ||
P2093 | author name string | Robin K Cameron | |
Daniel C Wilson | |||
Sanjukta Dey | |||
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LSD1 and HY5 antagonistically regulate red light induced-programmed cell death in Arabidopsis | Q35569420 | ||
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Transgenic Citrus Expressing an Arabidopsis NPR1 Gene Exhibit Enhanced Resistance against Huanglongbing (HLB; Citrus Greening). | Q35785421 | ||
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Acyl CoA Binding Proteins are Required for Cuticle Formation and Plant Responses to Microbes | Q36302506 | ||
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SOS - too many signals for systemic acquired resistance? | Q38022955 | ||
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Viral and cellular factors involved in Phloem transport of plant viruses | Q38112687 | ||
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Induced systemic resistance by beneficial microbes. | Q38218269 | ||
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Analysis of the pumpkin phloem proteome provides insights into angiosperm sieve tube function. | Q38512264 | ||
Priming for enhanced defense. | Q38526447 | ||
Plant fluid proteomics: Delving into the xylem sap, phloem sap and apoplastic fluid proteomes. | Q38794971 | ||
Pipecolic Acid Orchestrates Plant Systemic Acquired Resistance and Defense Priming via Salicylic Acid-Dependent and -Independent Pathways. | Q38931587 | ||
Role of Arabidopsis UV RESISTANCE LOCUS 8 in plant growth reduction under osmotic stress and low levels of UV-B. | Q39000401 | ||
The role of annexin 1 in drought stress in Arabidopsis. | Q39144890 | ||
Evidence for the presence and activity of a complete antioxidant defence system in mature sieve tubes | Q39571702 | ||
Chaperone-like properties of tobacco plastid thioredoxins f and m. | Q39980711 | ||
Arabidopsis AZI1 family proteins mediate signal mobilization for systemic defence priming | Q40704416 | ||
Comparative proteomic analysis of melon phloem exudates in response to viral infection | Q41309273 | ||
Plasmodesmata-located protein overexpression negatively impacts the manifestation of systemic acquired resistance and the long-distance movement of Defective in Induced Resistance1 in Arabidopsis | Q41710642 | ||
Long distance movement of DIR1 and investigation of the role of DIR1-like during systemic acquired resistance in Arabidopsis | Q41767398 | ||
Arabidopsis myrosinases TGG1 and TGG2 have redundant function in glucosinolate breakdown and insect defense | Q42037555 | ||
ChIP-seq reveals broad roles of SARD1 and CBP60g in regulating plant immunity. | Q42133240 | ||
Chloroplast signaling and LESION SIMULATING DISEASE1 regulate crosstalk between light acclimation and immunity in Arabidopsis | Q42441649 | ||
Pipecolic acid, an endogenous mediator of defense amplification and priming, is a critical regulator of inducible plant immunity | Q42517639 | ||
Accurate and sensitive peptide identification with Mascot Percolator | Q42538465 | ||
Interaction of COP1 and UVR8 regulates UV-B-induced photomorphogenesis and stress acclimation in Arabidopsis | Q43160499 | ||
CRYPTOCHROME 1 is implicated in promoting R protein-mediated plant resistance to Pseudomonas syringae in Arabidopsis | Q43201177 | ||
Dual-targeting of Arabidopsis 6-phosphogluconolactonase 3 (PGL3) to chloroplasts and peroxisomes involves interaction with Trx m2 in the cytosol | Q43689164 | ||
The metabolic transition during disease following infection of Arabidopsis thaliana by Pseudomonas syringae pv. tomato. | Q43703493 | ||
Contrasting Roles of the Apoplastic Aspartyl Protease APOPLASTIC, ENHANCED DISEASE SUSCEPTIBILITY1-DEPENDENT1 and LEGUME LECTIN-LIKE PROTEIN1 in Arabidopsis Systemic Acquired Resistance | Q43714994 | ||
A putative lipid transfer protein involved in systemic resistance signalling in Arabidopsis | Q44157351 | ||
The Arabidopsis plastidial thioredoxins: new functions and new insights into specificity | Q44411431 | ||
The pattern of systemic acquired resistance induction within the Arabidopsis rosette in relation to the pattern of translocation | Q44477474 | ||
Light conditions influence specific defence responses in incompatible plant-pathogen interactions: uncoupling systemic resistance from salicylic acid and PR-1 accumulation | Q44851753 | ||
Salicylic acid regulates Plasmodesmata closure during innate immune responses in Arabidopsis. | Q45096187 | ||
Strong allergenicity of Pru av 3, the lipid transfer protein from cherry, is related to high stability against thermal processing and digestion | Q45103531 | ||
A systemic small RNA signaling system in plants. | Q46037891 | ||
Protein profile of Lupinus texensis phloem sap exudates: searching for Fe- and Zn-containing proteins. | Q46123007 | ||
Induction of protein secretory pathway is required for systemic acquired resistance | Q46488018 | ||
Light regulation and daytime dependency of inducible plant defenses in Arabidopsis: phytochrome signaling controls systemic acquired resistance rather than local defense | Q46628440 | ||
Plastid omega3-fatty acid desaturase-dependent accumulation of a systemic acquired resistance inducing activity in petiole exudates of Arabidopsis thaliana is independent of jasmonic acid | Q46844367 | ||
Jasmonic acid-dependent and -independent wound signal transduction pathways are differentially regulated by Ca2+/calmodulin in Arabidopsis thaliana | Q47904253 | ||
Characterization of an acyl-CoA-binding protein from Arabidopsis thaliana | Q48062943 | ||
UV-B promotes rapid nuclear translocation of the Arabidopsis UV-B specific signaling component UVR8 and activates its function in the nucleus. | Q50668347 | ||
A feedback regulatory loop between G3P and lipid transfer proteins DIR1 and AZI1 mediates azelaic-acid-induced systemic immunity. | Q51058455 | ||
Analysis of transcription factor HY5 genomic binding sites revealed its hierarchical role in light regulation of development. | Q51581242 | ||
The extent to which methyl salicylate is required for signaling systemic acquired resistance is dependent on exposure to light after infection. | Q51849834 | ||
A plasmodesmata-localized protein mediates crosstalk between cell-to-cell communication and innate immunity in Arabidopsis. | Q51853447 | ||
Phloem sap proteome studied by iTRAQ provides integrated insight into salinity response mechanisms in cucumber plants. | Q53240548 | ||
Pathogen-associated molecular pattern recognition rather than development of tissue necrosis contributes to bacterial induction of systemic acquired resistance in Arabidopsis. | Q53880183 | ||
A type III effector ADP-ribosylates RNA-binding proteins and quells plant immunity | Q59049221 | ||
The hand eczema proteome: imbalance of epidermal barrier proteins | Q59209003 | ||
Direct comparison of MS-based label-free and SILAC quantitative proteome profiling strategies in primary retinal Müller cells | Q59209042 | ||
Deletion of a chaperonin 60 beta gene leads to cell death in the Arabidopsis lesion initiation 1 mutant | Q73200073 | ||
Sequential and structural homology between intracellular pathogenesis-related proteins and a group of latex proteins | Q77737943 | ||
Systemic acquired resistance | Q79760362 | ||
Overexpression of the Arabidopsis 10-kilodalton acyl-coenzyme A-binding protein ACBP6 enhances freezing tolerance | Q81630264 | ||
Phloem ultrastructure and pressure flow: Sieve-Element-Occlusion-Related agglomerations do not affect translocation | Q83132336 | ||
Soluble and filamentous proteins in Arabidopsis sieve elements | Q83367228 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | phloem | Q185138 |
exudate | Q1139400 | ||
P1104 | number of pages | 16 | |
P304 | page(s) | 1495-1510 | |
P577 | publication date | 2016-04-19 | |
P1433 | published in | Plant Physiology | Q3906288 |
P1476 | title | Comparative Proteomics Analysis of Phloem Exudates Collected during the Induction of Systemic Acquired Resistance | |
P478 | volume | 171 |
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Q61804048 | Identification of phloem-associated translatome alterations during leaf development in L |
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