about
Phytochrome structure and signaling mechanisms.Detection of spatial-specific phytochrome responses using targeted expression of biliverdin reductase in Arabidopsis.Gene regulation by cytokinin in Arabidopsis.Evolution of neutral and flowering genes along pearl millet (Pennisetum glaucum) domestication.Comparison of the genetic determinism of two key phenological traits, flowering and maturity dates, in three Prunus species: peach, apricot and sweet cherry.Tissue- and isoform-specific phytochrome regulation of light-dependent anthocyanin accumulation in Arabidopsis thaliana.Arabidopsis fhl/fhy1 double mutant reveals a distinct cytoplasmic action of phytochrome A.Molecular interactions of GBF1 with HY5 and HYH proteins during light-mediated seedling development in Arabidopsis thaliana.Role of phytochromes A and B in the regulation of cell death and acclimatory responses to UV stress in Arabidopsis thaliana.A focus on natural variation for abiotic constraints response in the model species Arabidopsis thaliana.Advances in upstream players of cytokinin phosphorelay: receptors and histidine phosphotransfer proteins.Enhancing the productivity of grasses under high-density planting by engineering light responses: from model systems to feedstocks.Development of fruit color in Solanaceae: a story of two biosynthetic pathways.Transcriptional control of photosynthetic capacity: conservation and divergence from Arabidopsis to rice.A red light-controlled synthetic gene expression switch for plant systems.Phytochrome induces rapid PIF5 phosphorylation and degradation in response to red-light activation.Right place, right time: Spatiotemporal light regulation of plant growth and development.The Arabidopsis Myb genes MYR1 and MYR2 are redundant negative regulators of flowering time under decreased light intensity.A basic helix-loop-helix transcription factor in Arabidopsis, MYC2, acts as a repressor of blue light-mediated photomorphogenic growth.Light regulation and daytime dependency of inducible plant defenses in Arabidopsis: phytochrome signaling controls systemic acquired resistance rather than local defense.TCP transcription factors regulate shade avoidance via directly mediating the expression of both PHYTOCHROME INTERACTING FACTORs and auxin biosynthetic genes.Phytochrome RNAi enhances major fibre quality and agronomic traits of the cotton Gossypium hirsutum L.A basic leucine zipper transcription factor, G-box-binding factor 1, regulates blue light-mediated photomorphogenic growth in Arabidopsis.Phytochrome A and B Function Antagonistically to Regulate Cold Tolerance via Abscisic Acid-Dependent Jasmonate Signaling.Large Cellular Inclusions Accumulate in Arabidopsis Roots Exposed to Low-Sulfur Conditions.Growth and cell cycle of Ulva compressa (Ulvophyceae) under LED illumination.GBF1, a transcription factor of blue light signaling in Arabidopsis, is degraded in the dark by a proteasome-mediated pathway independent of COP1 and SPA1.Heterotrimeric G-protein is involved in phytochrome A-mediated cell death of Arabidopsis hypocotyls.PKS1 plays a role in red-light-based positive phototropism in roots.LZF1, a HY5-regulated transcriptional factor, functions in Arabidopsis de-etiolation.Proteomic identification of potential target proteins regulated by an ASK1-mediated proteolysis pathway.SHORT HYPOCOTYL IN WHITE LIGHT1, a serine-arginine-aspartate-rich protein in Arabidopsis, acts as a negative regulator of photomorphogenic growth.
P2860
Q30486809-FFADE548-9E33-476A-95A6-E13BB6C4265FQ33346237-6293EF4C-71B0-47E3-8229-E7E4B8D0D3A3Q33353618-638DC28B-B6B1-4578-8A5F-BDD4FE20E2FFQ34273643-7FD3E6A9-2782-45B2-912D-214EB44C058FQ34350528-0424133B-8BF0-41A6-9FEF-B83A71FFAA48Q35212458-546AE10E-EA7A-41DD-8DC8-F3215D88CEADQ35973502-772F5B0C-E926-4E1C-807D-9A393C9ACAE9Q36122156-C03CF628-B50A-4A33-BCE8-94FCAAF2C4EFQ36216909-6AEB5D4A-4F53-4936-9E92-E98D343DCC12Q37683436-B016200D-3F23-410F-AE35-F40BF3221E77Q37986505-52A1C6B9-9802-4162-AB66-F0E98456FBF9Q38215490-07B389B8-D8DA-47AC-A820-9BF165B0D461Q38219243-4E3E6017-AD85-4958-A7F5-5CA6ACDEFF38Q38654500-5B08A98F-C089-4A2E-A9E2-232F4ADAC6D8Q39262491-E400E030-B158-46C0-AEF9-417B0DCE801EQ42631070-6FCE963C-B5AB-422B-80D6-D48490BCC1B2Q43189328-50C830E0-5C9C-44AC-B691-80346B37EF55Q44962628-73262DF6-842E-4B8E-9366-B671843E022DQ46516521-E24D6E68-4491-49D0-953D-BFFD0E9B7AC3Q46628440-341C24A9-3EC1-4F6F-B9A9-852E0709B8D5Q47286749-F0AFE83B-FD1D-4593-A8CC-633393C7B0D3Q47840643-AFD7B081-4772-472F-BB25-B2A275A75DCBQ48090624-C3EF5C05-132E-462C-964F-1D84B782A14FQ48110257-C79125CA-B6C6-4368-822A-77EAC8F58D39Q48168228-0D3167D0-DDB7-4F80-A8EC-16CDA15A4151Q50426210-8F9838AF-DDCC-444F-A4D5-A2EF58874ECBQ50456672-0029E1EC-0B62-445D-A32B-6DB014546569Q50621126-D6E0FCF4-BC5F-4E34-A154-8D74DA65534DQ50659663-345FDD06-E6C4-4BE9-8A2C-35441903B2E3Q50663329-F28195A1-517C-42AD-8142-5DABE5F4E19BQ51202514-061BC8D5-FED9-4573-A432-59D815469D3DQ51960826-478CD267-C4F3-4F67-8A03-F5F71F3E3A9D
P2860
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
Phytochrome-mediated light signalling in Arabidopsis.
@ast
Phytochrome-mediated light signalling in Arabidopsis.
@en
type
label
Phytochrome-mediated light signalling in Arabidopsis.
@ast
Phytochrome-mediated light signalling in Arabidopsis.
@en
prefLabel
Phytochrome-mediated light signalling in Arabidopsis.
@ast
Phytochrome-mediated light signalling in Arabidopsis.
@en
P2093
P1476
Phytochrome-mediated light signalling in Arabidopsis.
@en
P2093
Christian Fankhauser
Isabelle Schepens
Paula Duek
P304
P356
10.1016/J.PBI.2004.07.004
P577
2004-10-01T00:00:00Z