The genetic basis of flowering responses to seasonal cues.
about
A New Insight of Salt Stress Signaling in PlantThe Quest for Molecular Regulation Underlying Unisexual Flower DevelopmentMolecular memories in the regulation of seasonal flowering: from competence to cessationRAV genes: regulation of floral induction and beyondArguments in the evo-devo debate: say it with flowers!Genetic regulation of flowering time in annual and perennial plantsRed Light-Mediated Degradation of CONSTANS by the E3 Ubiquitin Ligase HOS1 Regulates Photoperiodic Flowering in ArabidopsisThe Effect of Fluctuations in Photoperiod and Ambient Temperature on the Timing of Flowering: Time to Move on Natural Environmental ConditionsGenomic Tools in Pearl Millet Breeding for Drought Tolerance: Status and ProspectsNUCLEAR FACTOR Y, Subunit A (NF-YA) Proteins Positively Regulate Flowering and Act Through FLOWERING LOCUS TIntegration of Light and Photoperiodic Signaling in Transcriptional Nuclear FociPatterns of nucleotide diversity at photoperiod related genes in Norway spruce [Picea abies (L.) Karst]Genetic architecture of main effect QTL for heading date in European winter wheatDown-regulation of GIGANTEA-like genes increases plant growth and salt stress tolerance in poplar.Adaptation to seasonality and the winter freeze.Forecasting flowering phenology under climate warming by modelling the regulatory dynamics of flowering-time genes.Barley: a translational model for adaptation to climate change.Flowering time and seed dormancy control use external coincidence to generate life history strategy.Predicting the evolutionary dynamics of seasonal adaptation to novel climates in Arabidopsis thaliana.Climate adaptation is not enough: warming does not facilitate success of southern tundra plant populations in the high Arctic.Responses of sequential and hierarchical phenological events to warming and cooling in alpine meadowsFunctional diversification of FD transcription factors in rice, components of florigen activation complexesMolecular control of flowering in response to day length in rice.Identification of pathways directly regulated by SHORT VEGETATIVE PHASE during vegetative and reproductive development in Arabidopsis.Molecular control of seasonal flowering in rice, arabidopsis and temperate cereals.Arabidopsis florigen FT binds to diurnally oscillating phospholipids that accelerate flowering.Characterization of FLOWERING LOCUS T1 (FT1) gene in Brachypodium and wheatPost-fertilization expression of FLOWERING LOCUS T suppresses reproductive reversion.SHORT VEGETATIVE PHASE reduces gibberellin biosynthesis at the Arabidopsis shoot apex to regulate the floral transitionAGO1 controls arabidopsis inflorescence architecture possibly by regulating TFL1 expression.Genotype of FLOWERING LOCUS T homologue contributes to flowering time differences in wild and cultivated roses.Calcium-dependent protein kinases responsible for the phosphorylation of a bZIP transcription factor FD crucial for the florigen complex formation.FT-like proteins induce transposon silencing in the shoot apex during floral induction in rice.Photoperiodic flowering regulation in Arabidopsis thaliana.Hd3a promotes lateral branching in rice.Combinatorial activities of SHORT VEGETATIVE PHASE and FLOWERING LOCUS C define distinct modes of flowering regulation in Arabidopsis.Storage temperature controls the timing of garlic bulb formation via shoot apical meristem termination.Changing the spatial pattern of TFL1 expression reveals its key role in the shoot meristem in controlling Arabidopsis flowering architecture.Photoperiodic Regulation of Florigen Function in Arabidopsis thaliana.The dynamics of FLOWERING LOCUS T expression encodes long-day information.
P2860
Q26744836-08A582F5-25BA-47C5-861A-21546D92B62BQ26765830-EF0B8A36-8D21-4D44-BC6D-CFA3E926C1F1Q26786808-8443AE88-C454-481F-879C-8A6409C33EFCQ26851570-057FC0A6-CBEB-4F25-B07C-557A2AEC25F5Q26865961-DEB268B0-B828-4588-B911-11783CEBAA34Q27021592-85FE571C-71EB-4019-AC03-90CA7D94C85EQ27318562-EBBF83DE-D6B7-4029-BBD4-7A80B85E851AQ28067078-64A10068-F6F4-4270-AAA7-2EA2A0167BDCQ28079854-CD1A34E8-6234-4044-8C57-25C9ABEACE21Q28555036-61A487EA-62EE-4486-8682-17378CA85701Q28607165-4C80CE74-730B-44C2-954C-664793FB66BAQ28657766-39359BFA-15F9-4482-9AED-F717AFD419D0Q28659309-3AB723DF-68C6-4A20-8D95-BCAC7969ACD0Q30378367-37D629DA-6426-45B3-AEAA-77291B034E04Q30647157-3890562D-CFD7-4851-9B00-195BA93F0171Q30661260-94C3A687-59C6-45B2-BA76-C46BD94BEE6AQ30885359-FCB2FE59-B893-477C-BF79-3E16699DBCC5Q30919507-2D19E87F-3DFD-4FB5-8978-F3A5A83C5FF0Q31089758-2715E30B-F596-4CCF-B6AC-99917330D731Q31113381-DF92BDD1-DC11-4E8D-B407-E394D423E57AQ31122167-16C8204B-FABB-476B-9FCA-9F92706F7575Q33355073-01E79CFA-E255-4628-847F-D76B7942552FQ33355088-CB061240-9955-41EC-9776-B452C5D64AB7Q33355978-3EDBE35C-120E-4DF1-B5E1-37235AB46E94Q33358080-76A0FB67-F840-4EDA-9C6D-07616621EB1EQ33358179-EBF5DE95-BA54-429F-81EC-CDCA1014BCCEQ33358217-6504F9B9-F483-487F-A18A-DE26145D9E74Q33358430-4BA875EB-86BB-4BCB-9A42-5720FB60C27BQ33358707-804FD369-2090-4300-A4D9-CB906D7CE07FQ33358718-AE4974F3-0C33-4B46-891D-D9DB5D60C57EQ33359783-D92BC447-55C8-46E2-8113-BC87BC76863EQ33360008-EC587082-344B-4D28-88E8-000BFB353F72Q33360045-B009E6F5-F36D-4856-B379-0FC68A7CFFDDQ33360065-5CE3A98A-FFEB-475B-9F93-6D57D8822B11Q33360198-F232B51D-8DD9-4EB3-A4A4-2C8463673797Q33360438-83D3FFEE-DC7F-4581-9818-568A615AB459Q33360780-B30891A1-8185-491F-8CD6-4573E5D30C8AQ33360785-B6CE017E-F873-422F-9F93-A8A604AB4C40Q33361098-62ED5641-5F6D-444E-9FD9-B4F1781B8432Q33361194-D2E8B432-E2ED-457C-A89D-1F8DC3A7050C
P2860
The genetic basis of flowering responses to seasonal cues.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
The genetic basis of flowering responses to seasonal cues.
@en
type
label
The genetic basis of flowering responses to seasonal cues.
@en
prefLabel
The genetic basis of flowering responses to seasonal cues.
@en
P356
P1476
The genetic basis of flowering responses to seasonal cues
@en
P2093
George Coupland
P2888
P304
P356
10.1038/NRG3291
P577
2012-09-01T00:00:00Z
P5875
P6179
1036188096