scholarly article | Q13442814 |
review article | Q7318358 |
P2093 | author name string | Bowler C | |
Mustilli AC | |||
P2860 | cites work | Transcriptional activation by recruitment | Q29615048 |
Light intensity regulation of cab gene transcription is signaled by the redox state of the plastoquinone pool | Q33828613 | ||
Phytochrome-regulated repression of gene expression requires calcium and cGMP. | Q33886606 | ||
Mutations in the DET1 gene affect cell-type-specific expression of light-regulated genes and chloroplast development in Arabidopsis | Q33890760 | ||
The phytochrome apoprotein family in Arabidopsis is encoded by five genes: the sequences and expression of PHYD and PHYE. | Q36735948 | ||
From seed germination to flowering, light controls plant development via the pigment phytochrome | Q37223844 | ||
Action spectra for phytochrome A- and B-specific photoinduction of seed germination in Arabidopsis thaliana | Q37465848 | ||
Chromophore-bearing NH2-terminal domains of phytochromes A and B determine their photosensory specificity and differential light lability | Q37626992 | ||
COP1, an Arabidopsis regulatory gene, encodes a protein with both a zinc-binding motif and a G beta homologous domain | Q38324294 | ||
Sucrose control of phytochrome A signaling in Arabidopsis | Q38347122 | ||
Photosynthesis: Regulation by redox signalling | Q40427912 | ||
Chromatin-mediated transcriptional repression in yeast | Q40445570 | ||
Phytochromes: photosensory perception and signal transduction | Q40514710 | ||
Emerging themes of plant signal transduction | Q40574514 | ||
Phytochrome phototransduction pathways | Q40614012 | ||
Repression and activation by multiprotein complexes that alter chromatin structure | Q40975338 | ||
Brassinosteroids rescue the deficiency of CYP90, a cytochrome P450, controlling cell elongation and de-etiolation in Arabidopsis. | Q42628760 | ||
Similarity of a chromatic adaptation sensor to phytochrome and ethylene receptors | Q42634176 | ||
The DIMINUTO gene of Arabidopsis is involved in regulating cell elongation | Q42688287 | ||
Nucleosome loss activates yeast downstream promoters in vivo | Q44568645 | ||
A Role for Cytokinins in De-Etiolation in Arabidopsis (det Mutants Have an Altered Response to Cytokinins). | Q45091709 | ||
DET1, a negative regulator of light-mediated development and gene expression in arabidopsis, encodes a novel nuclear-localized protein | Q46265487 | ||
Oat Phytochrome Is Biologically Active in Transgenic Tomatoes | Q46414586 | ||
Missense mutations define a restricted segment in the C-terminal domain of phytochrome A critical to its regulatory activity | Q46674370 | ||
Photosynthetic electron transport regulates the expression of cytosolic ascorbate peroxidase genes in Arabidopsis during excess light stress. | Q48051602 | ||
Hexokinase as a sugar sensor in higher plants | Q48056244 | ||
A role for brassinosteroids in light-dependent development of Arabidopsis | Q48064776 | ||
Arabidopsis COP9 is a component of a novel signaling complex mediating light control of development | Q48080929 | ||
A FUSCA gene of Arabidopsis encodes a novel protein essential for plant development | Q48086278 | ||
Distinct UV-B and UV-A/blue light signal transduction pathways induce chalcone synthase gene expression in Arabidopsis cells. | Q50536483 | ||
Evidence for FUS6 as a component of the nuclear-localized COP9 complex in Arabidopsis. | Q52199210 | ||
det1, cop1, and cop9 mutations cause inappropriate expression of several gene sets. | Q52199211 | ||
Phytochrome signal transduction pathways are regulated by reciprocal control mechanisms. | Q52214223 | ||
Functional analysis of yeast-derived phytochrome A and B phycocyanobilin adducts. | Q53726642 | ||
Cyclic GMP and calcium mediate phytochrome phototransduction | Q63952194 | ||
Calcium/calmodulin-dependent and -independent phytochrome signal transduction pathways | Q63952196 | ||
Far-red light blocks greening of Arabidopsis seedlings via a phytochrome A-mediated change in plastid development | Q63977673 | ||
Serine-to-alanine substitutions at the amino-terminal region of phytochrome A result in an increase in biological activity | Q67599799 | ||
Novel phytochrome sequences in Arabidopsis thaliana: structure, evolution, and differential expression of a plant regulatory photoreceptor family | Q69417103 | ||
Cyclic temperature treatments of dark-grown pea seedlings induce a rise in specific transcript levels of light-regulated genes related to photomorphogenesis | Q70139829 | ||
The aurea and yellow-green-2 mutants of tomato are deficient in phytochrome chromophore synthesis | Q71246537 | ||
The amino-terminus of phytochrome A contains two distinct functional domains | Q71566196 | ||
Nuclear localization activity of phytochrome B | Q71855496 | ||
A Temporarily Red Light-Insensitive Mutant of Tomato Lacks a Light-Stable, B-Like Phytochrome | Q74781628 | ||
Phytochrome A and Phytochrome B Have Overlapping but Distinct Functions in Arabidopsis Development | Q74789557 | ||
P433 | issue | 19 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 5801-5806 | |
P577 | publication date | 1997-10-01 | |
P1433 | published in | The EMBO Journal | Q1278554 |
P1476 | title | Tuning in to the signals controlling photoregulated gene expression in plants | |
P478 | volume | 16 |
Q47963360 | Arabidopsis FUSCA5 encodes a novel phosphoprotein that is a component of the COP9 complex |
Q38292117 | Arabidopsis seedling growth, storage lipid mobilization, and photosynthetic gene expression are regulated by carbon:nitrogen availability |
Q50522672 | Combinatorial interaction of light-responsive elements plays a critical role in determining the response characteristics of light-regulated promoters in Arabidopsis. |
Q47709330 | Control of Mitochondrial Function via Photosynthetic Redox Signals |
Q40851658 | Control of cell elongation and stress responses by steroid hormones and carbon catabolic repression in plants |
Q44954572 | DNA-methylation alterations and exchanges during in vitro cellular differentiation in rose (Rosa hybrida L.). |
Q73067590 | Differential effects of methyl jasmonate on the expression of the early light-inducible proteins and other light-regulated genes in barley |
Q50502778 | Dissection of the light signal transduction pathways regulating the two early light-induced protein genes in Arabidopsis. |
Q52170177 | Expression of AtPRP3, a proline-rich structural cell wall protein from Arabidopsis, is regulated by cell-type-specific developmental pathways involved in root hair formation. |
Q43571715 | Light activates a 46-kDa MAP kinase-like protein kinase in soybean cell culture |
Q28365347 | Nitric oxide synthase is induced in sporulation of Physarum polycephalum |
Q47990899 | Phenotype of the tomato high pigment-2 mutant is caused by a mutation in the tomato homolog of DEETIOLATED1. |
Q34000143 | Photosynthesis, sugars and the regulation of gene expression |
Q73185386 | Phytochrome in the limelight |
Q39933186 | Phytochrome signaling mechanism |
Q35710519 | Phytochrome signaling mechanisms |
Q42287682 | Phytochrome-mediated light signaling in plants: emerging trends |
Q43665482 | Promoter analysis of the nuclear gene encoding the chloroplast glyceraldehyde-3-phosphate dehydrogenase B subunit of Arabidopsis thaliana |
Q74267716 | Regulation by light and metabolites of ferredoxin-dependent glutamate synthase in maize |
Q47918812 | Semi-quantitative RT-PCR analysis of photoregulated gene expression in marine diatoms |
Q36241764 | The evolution and function of blue and red light photoreceptors |
Q39450854 | Translation of chloroplast psbA mRNA is modulated in the light by counteracting oxidizing and reducing activities |
Q33235861 | Up-regulation of photoprotection and PSII-repair gene expression by irradiance in the unicellular green alga Dunaliella salina |
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