review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Beronda L. Montgomery | Q55639305 |
P2860 | cites work | Biosynthesis of the plant photoreceptor phytochrome | Q28255153 |
Regulation and identity of florigen: FLOWERING LOCUS T moves center stage | Q28278190 | ||
The Arabidopsis HY2 gene encodes phytochromobilin synthase, a ferredoxin-dependent biliverdin reductase | Q28354306 | ||
Spatial separation of light perception and growth response in maize root phototropism | Q33337759 | ||
Phytochromes play a role in phototropism and gravitropism in Arabidopsis roots | Q33339506 | ||
The quest for florigen: a review of recent progress | Q33343255 | ||
Distinct light-initiated gene expression and cell cycle programs in the shoot apex and cotyledons of Arabidopsis. | Q33345472 | ||
Light: an indicator of time and place. | Q33836981 | ||
Mutations in the DET1 gene affect cell-type-specific expression of light-regulated genes and chloroplast development in Arabidopsis | Q33890760 | ||
Phytochromes and light signal perception by plants--an emerging synthesis | Q34061874 | ||
Intracellular trafficking of photoreceptors during light-induced signal transduction in plants | Q34136855 | ||
Photosensory perception and signalling in plant cells: new paradigms? | Q34560894 | ||
Evidence for type II phytochrome-induced rapid signalling leading to cab::luciferase gene expression in tobacco cotyledons | Q73863317 | ||
Differential patterns of expression of the Arabidopsis PHYB, PHYD, and PHYE phytochrome genes | Q73924753 | ||
Involvement of maize Dof zinc finger proteins in tissue-specific and light-regulated gene expression | Q74227649 | ||
Phytochrome D acts in the shade-avoidance syndrome in Arabidopsis by controlling elongation growth and flowering time | Q74590487 | ||
Leaf-Mediated Light Responses in Petunia Flowers | Q74776351 | ||
Patterns of expression and normalized levels of the five Arabidopsis phytochromes | Q74776999 | ||
Isolation and Initial Characterization of Arabidopsis Mutants That Are Deficient in Phytochrome A | Q74788635 | ||
Cell Communication, Stochastic Cell Responses, and Anthocyanin Pattern in Mustard Cotyledons | Q77071098 | ||
Phytochrome E influences internode elongation and flowering time in Arabidopsis | Q77183473 | ||
Effect of Light on the Formation of a Pigment in the Tomato Fruit Cuticle | Q83236895 | ||
Response of the Hypocotyl Hook of Bean Seedlings to Radiant Energy and Other Factors | Q83237331 | ||
Phytochrome-mediated Carotenoids Biosynthesis in Ripening Tomatoes | Q83249217 | ||
Phytochrome Regulation of the Response to Exogenous Gibberellins by Epicotyls of Vigna sinensis | Q83265793 | ||
Opening of the hypocotyl hook in seedlings as influenced by light and adjacent tissues | Q86897630 | ||
Phytochrome and internode elongation in Chenopodium polyspermum L. sites of photoreception | Q86912390 | ||
Far-red radiation reflected from adjacent leaves: an early signal of competition in plant canopies | Q34669479 | ||
Coordinated regulation of Arabidopsis thaliana development by light and gibberellins. | Q34740504 | ||
Light signals, phytochromes and cross-talk with other environmental cues | Q35606809 | ||
Phytochrome-mediated light signalling in Arabidopsis | Q35874410 | ||
Light-regulated nuclear localization of phytochromes | Q35921773 | ||
Light signal transduction in higher plants | Q35965822 | ||
Arabidopsis fhl/fhy1 double mutant reveals a distinct cytoplasmic action of phytochrome A. | Q35973502 | ||
The signal transducing photoreceptors of plants | Q36227483 | ||
Separate functions for nuclear and cytoplasmic cryptochrome 1 during photomorphogenesis of Arabidopsis seedlings | Q36277031 | ||
Let there be light in the nucleus! | Q36595989 | ||
Phytochrome-mediated development in land plants: red light sensing evolves to meet the challenges of changing light environments | Q36619649 | ||
The phytochrome apoprotein family in Arabidopsis is encoded by five genes: the sequences and expression of PHYD and PHYE. | Q36735948 | ||
Light-regulated transcriptional networks in higher plants | Q36737162 | ||
The arabidopsis ACT7 actin gene is expressed in rapidly developing tissues and responds to several external stimuli. | Q36813251 | ||
Eukaryotic phytochromes: light-regulated serine/threonine protein kinases with histidine kinase ancestry | Q36817238 | ||
Mechanistic duality of transcription factor function in phytochrome signaling | Q36883184 | ||
Light-regulated nucleo-cytoplasmic partitioning of phytochromes | Q36955720 | ||
Move on up, it's time for change--mobile signals controlling photoperiod-dependent flowering | Q36957250 | ||
Phytochrome Interacting Factors: central players in phytochrome-mediated light signaling networks | Q36969515 | ||
Decoding of light signals by plant phytochromes and their interacting proteins | Q37079163 | ||
Paths through the phytochrome network | Q37081731 | ||
Light signaling: back to space. | Q37086562 | ||
Gene profiling of the red light signalling pathways in roots | Q38310646 | ||
Spatial distribution of phytochromes | Q38926386 | ||
Preliminary studies on the site of primary action of light during de-etiolation processes of Phaseolus seedlings | Q39384649 | ||
Photosensory perception and signal transduction in plants | Q40588325 | ||
Flowering regulation by tissue specific functions of photoreceptors | Q41847701 | ||
CUE1: A Mesophyll Cell-Specific Positive Regulator of Light-Controlled Gene Expression in Arabidopsis | Q42526129 | ||
Phytochrome induces rapid PIF5 phosphorylation and degradation in response to red-light activation | Q42631070 | ||
Light-induced phosphorylation and degradation of the negative regulator PHYTOCHROME-INTERACTING FACTOR1 from Arabidopsis depend upon its direct physical interactions with photoactivated phytochromes | Q43541814 | ||
Phytochrome-Mediated Light Regulation of PHYA- and PHYB-GUS Transgenes in Arabidopsis thaliana Seedlings | Q43575556 | ||
Phytochrome in cotyledons regulates the expression of genes in the hypocotyl through auxin-dependent and -independent pathways | Q44198781 | ||
Tissue-specific and subcellular localization of phototropin determined by immuno-blotting | Q44666953 | ||
The Arabidopsis phytochrome-interacting factor PIF7, together with PIF3 and PIF4, regulates responses to prolonged red light by modulating phyB levels | Q45166039 | ||
Phytochrome-specific type 5 phosphatase controls light signal flux by enhancing phytochrome stability and affinity for a signal transducer. | Q45262715 | ||
hy8, a new class of arabidopsis long hypocotyl mutants deficient in functional phytochrome A. | Q45948954 | ||
Photoactivated phytochrome induces rapid PIF3 phosphorylation prior to proteasome-mediated degradation. | Q46031395 | ||
Temporal and spatial expression patterns of PHYA and PHYB genes in Arabidopsis | Q46166447 | ||
Mutations in the gene for the red/far-red light receptor phytochrome B alter cell elongation and physiological responses throughout Arabidopsis development | Q46272213 | ||
Functional profiling reveals that only a small number of phytochrome-regulated early-response genes in Arabidopsis are necessary for optimal deetiolation | Q46327807 | ||
A molecular framework for light and gibberellin control of cell elongation | Q46793609 | ||
Isolation and characterization of phyC mutants in Arabidopsis reveals complex crosstalk between phytochrome signaling pathways. | Q46898950 | ||
Multiple heme oxygenase family members contribute to the biosynthesis of the phytochrome chromophore in Arabidopsis | Q46905433 | ||
Modulation of carotenoid biosynthesis during tomato fruit ripening through phytochrome regulation of phytoene synthase activity | Q46916259 | ||
Mutant analyses define multiple roles for phytochrome C in Arabidopsis photomorphogenesis | Q47650170 | ||
PKS1, a substrate phosphorylated by phytochrome that modulates light signaling in Arabidopsis | Q47960092 | ||
The Arabidopsis photomorphogenic mutant hy1 is deficient in phytochrome chromophore biosynthesis as a result of a mutation in a plastid heme oxygenase | Q47981935 | ||
Phytochromes A and B mediate red-light-induced positive phototropism in roots | Q48026809 | ||
A phytochrome-associated protein phosphatase 2A modulates light signals in flowering time control in Arabidopsis | Q48270403 | ||
The 14-3-3 Proteins mu and upsilon influence transition to flowering and early phytochrome response | Q50463802 | ||
CRYPTOCHROME2 in vascular bundles regulates flowering in Arabidopsis. | Q50472282 | ||
The Dof transcription factor OBP3 modulates phytochrome and cryptochrome signaling in Arabidopsis. | Q50486593 | ||
A novel protein phosphatase indirectly regulates phytochrome-interacting factor 3 via phytochrome. | Q50645190 | ||
PKS1 plays a role in red-light-based positive phototropism in roots. | Q50659663 | ||
Phytochrome-mediated inhibition of shade avoidance involves degradation of growth-promoting bHLH transcription factors. | Q50668421 | ||
DELLAs contribute to plant photomorphogenesis. | Q50701671 | ||
Phytochrome A is an irradiance-dependent red light sensor. | Q50703092 | ||
Phytochrome B in the mesophyll delays flowering by suppressing FLOWERING LOCUS T expression in Arabidopsis vascular bundles. | Q50763207 | ||
The roles of phytochromes in elongation and gravitropism of roots. | Q50775434 | ||
Internal axial light conduction in the stems and roots of herbaceous plants. | Q50782010 | ||
The loci of perception for phytochrome control of internode growth in light-grown mustard: Promotion by low phytochrome photoequilibria in the internode is enhanced by blue light perceived by the leaves. | Q50893309 | ||
The role of the cotyledons in the photocontrol of hypocotyl extension in Cucumis sativus L. | Q50963148 | ||
Conservation and divergence of light-regulated genome expression patterns during seedling development in rice and Arabidopsis. | Q52034322 | ||
Organ-specific expression of Arabidopsis genome during development. | Q52050111 | ||
Fruit-localized phytochromes regulate lycopene accumulation independently of ethylene production in tomato. | Q52168427 | ||
Phytochrome phosphorylation modulates light signaling by influencing the protein-protein interaction. | Q53634370 | ||
Interorgan correlations and phytochrome: hypocotyl hook opening. | Q53971345 | ||
[Localization of a light reaction in the apex during the greening process in etiolated plants] | Q54078963 | ||
Studies on hook-opening in Phaseolus vulgaris L. by selective R/FR pretreatments of embryonic axis and primary leaves | Q54166329 | ||
Interorgan correlations and phytochrome: changes in plastid ultrastructure during de-etiolation processes. | Q54699372 | ||
Phytochrome coordinates Arabidopsis shoot and root development | Q56093279 | ||
Phytochrome E Controls Light-Induced Germination of Arabidopsis | Q57831544 | ||
Phytochrome E Controls Light-Induced Germination of Arabidopsis | Q57831555 | ||
Circadian Clock-Regulated Expression of Phytochrome and Cryptochrome Genes in Arabidopsis | Q59303588 | ||
Persistent effects of changes in phytochrome status on internode growth in light-grown mustard: Occurrence, kinetics and locus of perception | Q61919044 | ||
Vascular tissue in the stem and roots of woody plants can conduct light | Q62087435 | ||
Nucleocytoplasmic partitioning of the plant photoreceptors phytochrome A, B, C, D, and E is regulated differentially by light and exhibits a diurnal rhythm | Q64446940 | ||
Novel phytochrome sequences in Arabidopsis thaliana: structure, evolution, and differential expression of a plant regulatory photoreceptor family | Q69417103 | ||
Interorgan correlations and phytochrome: leaf expansion | Q70002656 | ||
Phytochrome A and phytochrome B mediate the hypocotyl-specific downregulation of TUB1 by light in arabidopsis | Q71287359 | ||
Light inactivation of Arabidopsis photomorphogenic repressor COP1 involves a cell-specific regulation of its nucleocytoplasmic partitioning | Q71988136 | ||
Phytochrome A null mutants of Arabidopsis display a wild-type phenotype in white light | Q72909496 | ||
A deletion in the PHYD gene of the Arabidopsis Wassilewskija ecotype defines a role for phytochrome D in red/far-red light sensing | Q73671374 | ||
P433 | issue | 12 | |
P921 | main subject | plant development | Q3045481 |
P304 | page(s) | 1053-1060 | |
P577 | publication date | 2008-12-01 | |
P1433 | published in | Plant Signaling and Behavior | Q15757476 |
P1476 | title | Right place, right time: Spatiotemporal light regulation of plant growth and development | |
P478 | volume | 3 |
Q34186432 | A small GTPase activator protein interacts with cytoplasmic phytochromes in regulating root development |
Q33805241 | Analysis of peptide PSY1 responding transcripts in the two Arabidopsis plant lines: wild type and psy1r receptor mutant |
Q34039178 | Computing gene expression data with a knowledge-based gene clustering approach |
Q33346237 | Detection of spatial-specific phytochrome responses using targeted expression of biliverdin reductase in Arabidopsis |
Q35154798 | Investigating tissue- and organ-specific phytochrome responses using FACS-assisted cell-type specific expression profiling in Arabidopsis thaliana |
Q37779616 | Light-regulated plant growth and development |
Q91632706 | Mesophyll-specific phytochromes impact chlorophyll light-harvesting complexes (LHCs) and non-photochemical quenching |
Q34180400 | Phototropism and gravitropism in transgenic lines of Arabidopsis altered in the phytochrome pathway |
Q33347724 | Spatial-specific phytochrome responses during de-etiolation in Arabidopsis thaliana |
Q35914253 | Spatial-specific regulation of root development by phytochromes in Arabidopsis thaliana |
Q26752485 | Spatiotemporal Phytochrome Signaling during Photomorphogenesis: From Physiology to Molecular Mechanisms and Back |
Q35672005 | Using transgenic modulation of protein synthesis and accumulation to probe protein signaling networks in Arabidopsis thaliana |
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