SEF, a new protein required for flowering repression in Arabidopsis, interacts with PIE1 and ARP6
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Essential role of p18Hamlet/SRCAP-mediated histone H2A.Z chromatin incorporation in muscle differentiationInterconnection between flowering time control and activation of systemic acquired resistanceNovel long non-protein coding RNAs involved in Arabidopsis differentiation and stress responsesHistone H2A.Z acid patch residues required for deposition and functionACTIN DEPOLYMERIZING FACTOR9 controls development and gene expression in Arabidopsis.Flowering time regulation produces much fruit.AtPIN: Arabidopsis thaliana protein interaction networkInsights into chromatin structure and dynamics in plantsChapter 5. Nuclear actin-related proteins in epigenetic control.OsPIE1, the rice ortholog of Arabidopsis PHOTOPERIOD-INDEPENDENT EARLY FLOWERING1, is essential for embryo development.Decoding the epigenetic language of plant development.The FRIGIDA complex activates transcription of FLC, a strong flowering repressor in Arabidopsis, by recruiting chromatin modification factors.Brahma is required for proper expression of the floral repressor FLC in Arabidopsis.AtEAF1 is a potential platform protein for Arabidopsis NuA4 acetyltransferase complex.Regulation by polycomb and trithorax group proteins in Arabidopsis.Regulation of MicroRNA-Mediated Developmental Changes by the SWR1 Chromatin Remodeling Complex.Histone modifications and dynamic regulation of genome accessibility in plants.Di- and tri- but not monomethylation on histone H3 lysine 36 marks active transcription of genes involved in flowering time regulation and other processes in Arabidopsis thaliana.SWR1 Chromatin-Remodeling Complex Subunits and H2A.Z Have Non-overlapping Functions in Immunity and Gene Regulation in Arabidopsis.Balance of power--dynamic regulation of chromatin in plant development.NuA4 and SWR1-C: two chromatin-modifying complexes with overlapping functions and components.Histone variants and modifications in plant gene regulation.Histone variants: the artists of eukaryotic chromatin.Coordination of matrix attachment and ATP-dependent chromatin remodeling regulate auxin biosynthesis and Arabidopsis hypocotyl elongation.H2A.Z mediates different aspects of chromatin function and modulates flowering responses in Arabidopsis.Roles and activities of chromatin remodeling ATPases in plants.Dual Role of the Histone Variant H2A.Z in Transcriptional Regulation of Stress-Response Genes.Turnip vein clearing virus movement protein nuclear activity: Do Tobamovirus movement proteins play a role in immune response suppression?SKIP controls flowering time via the alternative splicing of SEF pre-mRNA in Arabidopsis.Functional analysis of splice variant expression of MADS AFFECTING FLOWERING 2 of Arabidopsis thaliana.Genetic architecture of flowering time differentiation between locally adapted populations of Arabidopsis thaliana.Pleiotropic phenotypes of the salt-tolerant and cytosine hypomethylated leafless inflorescence, evergreen dwarf and irregular leaf lamina mutants of Catharanthus roseus possessing Mendelian inheritance.KLU suppresses megasporocyte cell fate through SWR1-mediated activation of WRKY28 expression in Arabidopsis.H2A.Z promotes the transcription of MIR156A and MIR156C in Arabidopsis by facilitating the deposition of H3K4me3.ERECTA signaling controls Arabidopsis inflorescence architecture through chromatin-mediated activation of PRE1 expression.The chromatin-remodeling factor AtINO80 plays crucial roles in genome stability maintenance and in plant development.Establishment of the winter-annual growth habit via FRIGIDA-mediated histone methylation at FLOWERING LOCUS C in Arabidopsis.Identification of regulators required for the reactivation of FLOWERING LOCUS C during Arabidopsis reproduction.POWERDRESS-mediated histone deacetylation is essential for thermomorphogenesis in Arabidopsis thaliana.Modify the Histone to Win the Battle: Chromatin Dynamics in Plant-Pathogen Interactions.
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SEF, a new protein required for flowering repression in Arabidopsis, interacts with PIE1 and ARP6
description
article
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im Dezember 2006 veröffentlichter wissenschaftlicher Artikel
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wetenschappelijk artikel
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наукова стаття, опублікована в лютому 2007
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name
SEF, a new protein required fo ...... , interacts with PIE1 and ARP6
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SEF, a new protein required fo ...... , interacts with PIE1 and ARP6
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SEF, a new protein required fo ...... , interacts with PIE1 and ARP6
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SEF, a new protein required fo ...... , interacts with PIE1 and ARP6
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SEF, a new protein required fo ...... , interacts with PIE1 and ARP6
@en
SEF, a new protein required fo ...... , interacts with PIE1 and ARP6
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SEF, a new protein required fo ...... , interacts with PIE1 and ARP6
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Rosana March-Díaz
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10.1104/PP.106.092270
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2006-12-01T00:00:00Z