Wind-induced plant motion immediately increases cytosolic calcium.
about
Aequorin-based measurements of intracellular Ca2+-signatures in plant cellsSuccessful external fertilization in turbulent environmentsThe 4-Dimensional Plant: Effects of Wind-Induced Canopy Movement on Light Fluctuations and Photosynthesis.Cold calcium signaling in Arabidopsis involves two cellular pools and a change in calcium signature after acclimationArabidopsis TCH3 encodes a novel Ca2+ binding protein and shows environmentally induced and tissue-specific regulationReceptor-mediated increase in cytoplasmic free calcium required for activation of pathogen defense in parsley.Characterization of a novel plant PP2C-like protein Ser/Thr phosphatase as a calmodulin-binding protein.Spatial Organization of Calcium Signaling Involved in Cell Volume Control in the Fucus Rhizoid.UV-B-induced signaling events leading to enhanced-production of catharanthine in Catharanthus roseus cell suspension cultures.A gene encoding a mitogen-activated protein kinase kinase kinase is induced simultaneously with genes for a mitogen-activated protein kinase and an S6 ribosomal protein kinase by touch, cold, and water stress in Arabidopsis thalianaUV-B induced transcript accumulation of DAHP synthase in suspension-cultured Catharanthus roseus cellsTo respond or not to respond, the recurring question in plant mechanosensitivity.Calcium in plants.Effects of mechanical signaling on plant cell cytosolic calciumCombining genetics and cell biology to crack the code of plant cell calcium signaling.A mechanical strain-induced 1-aminocyclopropane-1-carboxylic acid synthase gene.Phylogenetic study of plant Q-type C2H2 zinc finger proteins and expression analysis of poplar genes in response to osmotic, cold and mechanical stresses.Drought-Induced Leaf Proteome Changes in Switchgrass Seedlings.Polyamine regulates tolerance to water stress in leaves of white clover associated with antioxidant defense and dehydrin genes via involvement in calcium messenger system and hydrogen peroxide signaling.Imaging calcium dynamics in living plants using semi-synthetic recombinant aequorins.Novel thigmomorphogenetic responses in Carica papaya: touch decreases anthocyanin levels and stimulates petiole cork outgrowths.Touch induces ATP release in Arabidopsis roots that is modulated by the heterotrimeric G-protein complex.Coping with stresses: roles of calcium- and calcium/calmodulin-regulated gene expression.Calcium efflux systems in stress signaling and adaptation in plants.Plant memory: a tentative model.Plant biomechanics and mechanobiology are convergent paths to flourishing interdisciplinary research.Analysis and effects of cytosolic free calcium increases in response to elicitors in Nicotiana plumbaginifolia cells.Expression and reconstitution of the bioluminescent Ca(2+) reporter aequorin in human embryonic stem cells, and exploration of the presence of functional IP3 and ryanodine receptors during the early stages of their differentiation into cardiomyocyteTranscriptomic analysis reveals calcium regulation of specific promoter motifs in Arabidopsis.Gadolinium-sensitive, voltage-dependent calcium release channels in the endoplasmic reticulum of a higher plant mechanoreceptor organ.Signal transduction and ion channels in guard cells.Comparative modeling of the three-dimensional structure of the calmodulin-related TCH2 protein from Arabidopsis.Spatial and temporal specificity of Ca(2+) signalling in Chlamydomonas reinhardtii in response to osmotic stress.Measurement of Ca2+ fluxes during elicitation of the oxidative burst in aequorin-transformed tobacco cells.Calcium impacts carbon and nitrogen balance in the filamentous cyanobacterium Anabaena sp. PCC 7120.Universal poroelastic mechanism for hydraulic signals in biomimetic and natural branches.The theater management model of plant memory.Mechanically stimulated TCH3 gene expression in Arabidopsis involves protein phosphorylation and EIN6 downstream of calcium.Reorientation of seedlings in the earth's gravitational field induces cytosolic calcium transients.The effects of mastoparan on the carrot cell plasma membrane polyphosphoinositide phospholipase C.
P2860
Q24545742-BFE0C1B5-7E2D-417A-A462-1F75EBAC1587Q24605535-F62C01A1-D0FE-4CFD-932D-03992255CEB5Q27306735-49FF524C-68ED-4B2F-9E45-5CC69AB5B9A3Q28285319-20D8315C-A921-4AC9-85E6-0122A79ABC83Q28368324-A9CF7EA3-E73F-441F-B7D6-F20716EAAFF9Q30321083-96BFFC63-AE4B-427B-BF1B-2DB8C87DBE5CQ30729545-5A563C59-EED9-47B5-9895-82E5C9849E8AQ30850288-4DD95600-E3C8-4477-8EED-D3DDD9DCE962Q33305282-50910811-82B4-4326-93BA-78768C266C53Q33577576-F8A1802B-C4B4-468F-B629-790C05C65F62Q33655664-66A84984-F5AE-465F-82C2-D4E78A06C115Q34042970-DD58E999-2CF3-4AA6-9891-FFB78CD9D9B4Q34224629-C21EBCDA-CDDF-4E03-92A0-D36E81ECDAD1Q34306462-D49EEC60-7D19-4EBC-9696-DE808E499549Q34389212-142F52F4-3B3E-4A49-86C5-78BF665FE08BQ34635437-4C5FCC74-1990-46C4-B204-1A405A42CC75Q34795947-6E82E182-B506-4D2C-9CF6-3F1DBE52E5DAQ36094976-BBA93C4E-ABCC-4C99-84EA-7D8988BC65CEQ36146198-1F84B274-804A-454E-B82C-CADD16E925CCQ36778799-C0AC3076-DFAF-4219-BF38-EE6B1C7165DEQ37255086-994C7D27-4327-4115-A605-31ED858A067AQ37374051-11A84372-2072-4763-8EF5-D8EC19D0ECC0Q37885101-0A8B82D0-B565-4374-92D7-CFD0D7FF6199Q38013752-9AC9027D-8BB1-4767-B335-E6B45D08B57FQ38057345-D433F035-D846-45F3-8DF4-6BED0ACC7175Q38160188-D83BFDCA-66EC-4F7E-B430-6F0E05CBBA8EQ38362211-7A17AA53-A24B-49F5-B25F-6D79FA1207FCQ38757346-C518AB87-D5EF-4D47-965C-12FC534BA53AQ39588729-C156150A-7F9A-4538-A244-DEB2544A5E7FQ40807017-ED844550-10C1-47CA-87C0-D8FA740E3E69Q40851553-87AB46FD-3331-4BB6-BD3F-C60CD9FF40BEQ40914759-700D4363-0AD3-4677-8860-2ADA58D78BF7Q41817453-894D988D-FC9F-4CC2-A180-A73A568FEFB5Q42446306-C737FC2D-889E-4953-8140-619862C01051Q42583837-66464261-EF7E-47D6-BC5E-1EB0826549CCQ42653593-D198745E-B04F-490D-8120-7B86C7A3DC16Q43200036-0BA14BFF-9FDC-4B1E-90E1-37CC71C132FEQ43957870-A35E366F-790E-4E2C-9905-EC477016F08BQ44030514-916CA7C7-3A1D-4F03-9260-FF43E3D836E2Q44863074-AB57F8A9-421A-4AAE-9E8F-39DB7D855B6C
P2860
Wind-induced plant motion immediately increases cytosolic calcium.
description
1992 nî lūn-bûn
@nan
1992 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1992 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
name
Wind-induced plant motion immediately increases cytosolic calcium.
@ast
Wind-induced plant motion immediately increases cytosolic calcium.
@en
Wind-induced plant motion immediately increases cytosolic calcium.
@nl
type
label
Wind-induced plant motion immediately increases cytosolic calcium.
@ast
Wind-induced plant motion immediately increases cytosolic calcium.
@en
Wind-induced plant motion immediately increases cytosolic calcium.
@nl
prefLabel
Wind-induced plant motion immediately increases cytosolic calcium.
@ast
Wind-induced plant motion immediately increases cytosolic calcium.
@en
Wind-induced plant motion immediately increases cytosolic calcium.
@nl
P2860
P356
P1476
Wind-induced plant motion immediately increases cytosolic calcium
@en
P2093
A J Trewavas
P2860
P304
P356
10.1073/PNAS.89.11.4967
P407
P577
1992-06-01T00:00:00Z