High temperature-mediated adaptations in plant architecture require the bHLH transcription factor PIF4.
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PIF4 Integrates Multiple Environmental and Hormonal Signals for Plant Growth Regulation in ArabidopsisSalinity and High Temperature Tolerance in Mungbean [Vigna radiata (L.) Wilczek] from a Physiological PerspectiveMy body is a cage: mechanisms and modulation of plant cell growthGenetic and epigenetic control of plant heat responsesInteraction of light and temperature signallingPIFs get BRright: PHYTOCHROME INTERACTING FACTORs as integrators of light and hormonal signalsPredicting Plant Performance Under Simultaneously Changing Environmental Conditions-The Interplay Between Temperature, Light, and Internode Growth.Phenotypes on demand via switchable target protein degradation in multicellular organisms.The Importance of Ambient Temperature to Growth and the Induction of FloweringNatural Variation Identifies ICARUS1, a Universal Gene Required for Cell Proliferation and Growth at High Temperatures in Arabidopsis thalianaGenome-wide transcriptional profiles during temperature and oxidative stress reveal coordinated expression patterns and overlapping regulons in riceMolecular and genetic control of plant thermomorphogenesis.Control of flowering by ambient temperature.PIF4 Coordinates Thermosensory Growth and Immunity in Arabidopsis.Gibberellic acid signaling is required for ambient temperature-mediated induction of flowering in Arabidopsis thaliana.Photoperiodic and thermosensory pathways interact through CONSTANS to promote flowering at high temperature under short days.Temperature-compensated cell production rate and elongation zone length in the root of Arabidopsis thaliana.Floral transitions in wheat and barley: interactions between photoperiod, abiotic stresses, and nutrient status.Temperature-regulation of plant architecture.Inhibition of the shade avoidance response by formation of non-DNA binding bHLH heterodimers.Do trees grow on money? Auxin as the currency of the cellular economy.Origin and diversification of basic-helix-loop-helix proteins in plantsAmbient temperature response establishes ELF3 as a required component of the core Arabidopsis circadian clock.Cell elongation is regulated through a central circuit of interacting transcription factors in the Arabidopsis hypocotylPhotoreceptor PhyB Involved in Arabidopsis Temperature Perception and Heat-Tolerance FormationMolecular interactions between wheat and cereal aphid (Sitobion avenae): analysis of changes to the wheat proteome.PIF genes mediate the effect of sucrose on seedling growth dynamics.UV-B detected by the UVR8 photoreceptor antagonizes auxin signaling and plant shade avoidance.PIFs: pivotal components in a cellular signaling hub.Transcription factor PIF4 controls the thermosensory activation of flowering.De novo sequencing and characterization of Picrorhiza kurrooa transcriptome at two temperatures showed major transcriptome adjustments.PIF4-mediated activation of YUCCA8 expression integrates temperature into the auxin pathway in regulating arabidopsis hypocotyl growth.Hypocotyl transcriptome reveals auxin regulation of growth-promoting genes through GA-dependent and -independent pathways.Cryptochromes Interact Directly with PIFs to Control Plant Growth in Limiting Blue Light.Interplay between sucrose and folate modulates auxin signaling in Arabidopsis.Proteomic analysis shows that stress response proteins are significantly up-regulated in resistant diploid wheat (Triticum monococcum) in response to attack by the grain aphid (Sitobion avenae).A systematic exploration of high-temperature stress-responsive genes in potato using large-scale yeast functional screening.Linked circadian outputs control elongation growth and flowering in response to photoperiod and temperature.Cryptochrome 1 and phytochrome B control shade-avoidance responses in Arabidopsis via partially independent hormonal cascadesShedding light on flower development: phytochrome B regulates gynoecium formation in association with the transcription factor SPATULA.
P2860
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P2860
High temperature-mediated adaptations in plant architecture require the bHLH transcription factor PIF4.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
High temperature-mediated adap ...... HLH transcription factor PIF4.
@en
High temperature-mediated adap ...... HLH transcription factor PIF4.
@nl
type
label
High temperature-mediated adap ...... HLH transcription factor PIF4.
@en
High temperature-mediated adap ...... HLH transcription factor PIF4.
@nl
prefLabel
High temperature-mediated adap ...... HLH transcription factor PIF4.
@en
High temperature-mediated adap ...... HLH transcription factor PIF4.
@nl
P2093
P1433
P1476
High temperature-mediated adap ...... HLH transcription factor PIF4.
@en
P2093
Ceinwen A Tilley
Garry C Whitelam
Keara A Franklin
Maria A Koini
Nicholas P Harberd
Trudie Allen
P304
P356
10.1016/J.CUB.2009.01.046
P407
P577
2009-02-26T00:00:00Z