Rapid changes of protein phosphorylation are involved in transduction of the elicitor signal in plant cells.
about
Ethylene biosynthesis and signaling networksPlant-Herbivore Interaction: Dissection of the Cellular Pattern of Tetranychus urticae Feeding on the Host Plant.The significance of CP29 reversible phosphorylation in thylakoids of higher plants under environmental stressesSuramin inhibits initiation of defense signaling by systemin, chitosan, and a beta-glucan elicitor in suspension-cultured Lycopersicon peruvianum cellsInvolvement of mitogen-activated protein kinase activation in the signal-transduction pathways of the soya bean oxidative burstDirected proteomics identifies a plant-specific protein rapidly phosphorylated in response to bacterial and fungal elicitorsMitogen-activated protein kinases play an essential role in oxidative burst-independent expression of pathogenesis-related genes in parsley.Involvement of small GTP-binding proteins in defense signal-transduction pathways of higher plants.UV-B induced transcript accumulation of DAHP synthase in suspension-cultured Catharanthus roseus cellsRapid heteromerization and phosphorylation of ligand-activated plant transmembrane receptors and their associated kinase BAK1.The early response during the interaction of fungal phytopathogen and host plantCutting activates a 46-kilodalton protein kinase in plants.The octadecanoic pathway: signal molecules for the regulation of secondary pathways.Role of phosphorylation in elicitation of the oxidative burst in cultured soybean cells.Oligogalacturonide defense signals in plants: large fragments interact with the plasma membrane in vitro.Dual-level regulation of ACC synthase activity by MPK3/MPK6 cascade and its downstream WRKY transcription factor during ethylene induction in Arabidopsis.Ligand-induced endocytosis of the pattern recognition receptor FLS2 in Arabidopsis.Ethylene signal transductionIsolation and gene expression analysis of Arabidopsis thaliana mutants with constitutive expression of ATL2, an early elicitor-response RING-H2 zinc-finger gene.Perception of Rhizobium nodulation factors by tomato cells and inactivation by root chitinasesResistance gene N-mediated de novo synthesis and activation of a tobacco mitogen-activated protein kinase by tobacco mosaic virus infectionCalcium in plant defence-signalling pathways.Activation of defence reactions in Solanaceae: where is the specificity?Pseudomonas syringae type III effector HopAF1 suppresses plant immunity by targeting methionine recycling to block ethylene inductionStress signaling in plants: a mitogen-activated protein kinase pathway is activated by cold and drought.The protein phosphatase inhibitor calyculin A mimics elicitor action in plant cells and induces rapid hyperphosphorylation of specific proteins as revealed by pulse labeling with [33P]phosphateThe PR5K receptor protein kinase from Arabidopsis thaliana is structurally related to a family of plant defense proteins.Enhanced synthesis of andrographolide by Aspergillus niger and Penicillium expansum elicitors in cell suspension culture of Andrographis paniculata (Burm. f.) Nees.Multiple PLDs required for high salinity and water deficit tolerance in plants.Protein phosphatase activity is required for light-inducible gene expression in maize.Oxidative burst: an early plant response to pathogen infection.Quantitative phosphoproteomic analysis of plasma membrane proteins reveals regulatory mechanisms of plant innate immune responsesRapid stimulation of a soybean protein-serine kinase that phosphorylates a novel bZIP DNA-binding protein, G/HBF-1, during the induction of early transcription-dependent defenses.The tomato calcium sensor Cbl10 and its interacting protein kinase Cipk6 define a signaling pathway in plant immunity.Two guard cell-preferential MAPKs, MPK9 and MPK12, regulate YEL signalling in Arabidopsis guard cells.Rapid phosphorylation of a syntaxin during the Avr9/Cf-9-race-specific signaling pathway.In vitro elicitation, isolation, and characterization of conessine biomolecule from Holarrhena antidysenterica (L.) Wall. callus and its larvicidal activity against malaria vector, Anopheles stephensi Liston.Salicylic acid activates a 48-kD MAP kinase in tobacco.Sensitivity of different ecotypes and mutants of Arabidopsis thaliana toward the bacterial elicitor flagellin correlates with the presence of receptor-binding sites.The Arabidopsis receptor kinase FLS2 binds flg22 and determines the specificity of flagellin perception.
P2860
Q24553333-704720D6-C19E-4D9A-8278-E211843180FBQ27306841-1ACE1CB0-0BA8-4EE6-A9BE-FBBF603D8236Q27694280-1CC66ADF-A817-45C5-AC19-14558A29E1EDQ28142406-7120B830-DDFE-40BB-AC32-09C545E6A8A5Q28363262-8F9CEA43-B155-4543-9BD6-FC03022156A5Q28366636-9C73FB62-2960-41A2-984D-4C767F9E3DA2Q30320752-B987C36D-5A1F-4A69-B9BB-E92882C2F0C1Q31019182-59142A4B-F89F-46D1-9574-4FAE4CC1BCE9Q33655664-05F44E34-FEE7-49C1-909E-EA10236DE523Q33744516-089157A7-8D11-4225-A091-9986676862E2Q33747505-3CE6E729-D3BD-4E5F-9B9E-ACBFF461C21DQ33916645-BED032BB-F193-4D81-9571-1733BDC03E2FQ34304645-51DBBB98-C6FA-434B-8F23-B184D508DBFDQ34306046-E8AE1155-E0DD-43B4-8A3C-99EE9AA994ECQ34308139-6CE64E03-7D4D-41A9-B0E3-AEBEF3CB69BCQ34325545-20CDF54D-D0AA-45B3-85C2-F14DDE4B61DAQ34471127-72D908DD-3BD5-4C27-B5F6-D11BD2AD64A3Q34582930-432BDA44-DAA7-4DED-B5DF-8BBBD5B05CB2Q34644891-710FB784-8EC4-440A-A3CF-184BB2C22B33Q35098965-EF151DE2-5220-409A-8780-AA6BF8D646F4Q36490172-D27E4388-E716-43CF-B6D4-2ECDC6A5BF70Q36546545-80CEC69D-5249-4600-BD58-A88997C6AB1FQ36642822-3377BBA1-99C2-4B21-8FBC-A8BED63E8C5BQ37040691-E1838526-7229-42E6-BBB4-762E307A9F02Q37319700-37C8EF27-7BA6-480A-B56A-E31130A7AE83Q37558358-B09EB913-FDAD-4A17-B127-626A95D9A421Q37698889-69955ECC-A769-469E-9117-989CC18F102CQ38782639-7FEAC5BB-DEB2-4754-B21C-ED0BA2BF029BQ38893307-B882F3AA-E68D-4E0A-AC43-153B8A408A89Q40873828-41F63413-C1C6-470A-8A24-4BC30C83F4E0Q41468408-2239F753-CC45-444B-9331-8C8B28ED3663Q41940296-9024DB4A-2046-4846-ADCA-D984CE7872C5Q42157657-E97BB312-1385-429C-9D96-A2CD578F9920Q42280060-20766735-5E16-49DA-828B-4C2A4DB51C38Q45789471-C429EEC5-3BC3-443F-8A25-B8CE29DC75F1Q46604737-1632B728-ECD6-40FD-A326-290F44E89A94Q48019968-548FF579-CF4B-4FC2-B67F-E3033ABDF077Q48050393-7A29AC3A-CD24-4EE5-9693-BAA215500425Q52591323-C0059616-E037-4443-88A7-5BBDD1317401Q55041494-B0C85452-0741-4D67-B2F6-5AFA1B2583E9
P2860
Rapid changes of protein phosphorylation are involved in transduction of the elicitor signal in plant cells.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on October 1991
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Rapid changes of protein phosp ...... licitor signal in plant cells.
@en
Rapid changes of protein phosp ...... licitor signal in plant cells.
@nl
type
label
Rapid changes of protein phosp ...... licitor signal in plant cells.
@en
Rapid changes of protein phosp ...... licitor signal in plant cells.
@nl
prefLabel
Rapid changes of protein phosp ...... licitor signal in plant cells.
@en
Rapid changes of protein phosp ...... licitor signal in plant cells.
@nl
P2093
P2860
P356
P1476
Rapid changes of protein phosp ...... licitor signal in plant cells.
@en
P2093
P2860
P304
P356
10.1073/PNAS.88.19.8831
P407
P577
1991-10-01T00:00:00Z