Israel Ausín scite author profile

SUMMARY RNA-directed DNA methylation in Arabidopsis thaliana is driven by the plant-specific RNA Polymerase IV (Pol IV). It has been assumed that a Pol IV transcript can give rise to multiple 24-nucleotide (nt) small interfering RNAs (siRNAs) that target DNA methylation. Here, we demonstrate that Pol IV-dependent RNAs (P4RNAs) from wild-type Arabidopsis are surprisingly short in length (30-to-40 nt) and mirror 24-nt siRNAs in distribution, abundance, strand bias, and 5’-adenine preference. P4RNAs exhibit transcription-start-sites similar to Pol II products, and are featured with 5’-monophosphates and 3’-misincorporated nucleotides. The 3’-misincorporation preferentially occurs at methylated cytosines on the template DNA strand, suggesting a co-transcriptional feedback to siRNA biogenesis by DNA methylation to reinforce silencing locally. These results highlight an unusual mechanism of Pol IV transcription and suggest a “one-precursor, one-siRNA” model for the biogenesis of 24-nt siRNAs in Arabidopsis.

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Regulation of flowering time by FVE, a retinoblastoma-associated protein

Ausín

et al. 2004

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The initiation of flowering in plants is controlled by environmental and endogenous signals 1,2 . Molecular analysis of this process in Arabidopsis thaliana indicates that environmental control is exerted through the photoperiod and vernalization pathways, whereas endogenous signals regulate the autonomous and gibberellin pathways. The vernalization and autonomous pathways converge on the negative regulation of FLC 3,4 , a gene encoding a MADS-box protein that inhibits flowering 3,4 . We cloned FVE, a component of the autonomous pathway that encodes AtMSI4, a putative retinoblastomaassociated protein. FVE interacted with retinoblastoma protein in immunoprecipitation assays, and FLC chromatin was enriched in acetylated histones in fve mutants. We conclude that FVE participates in a protein complex repressing FLC transcription through a histone deacetylation mechanism. Our data provide genetic evidence of a new developmental function of these conserved proteins and identify a new genetic mechanism in the regulation of flowering. shown in the upper part, capital letters correspond to the wild-type or mutated nucleotides. In the protein schematic, gray boxes represent WD repeats, the narrow black box represents a putative nuclear localization signal and the asterisk indicates a putative retinoblastoma-binding motif.

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A Protein Complex Required for Polymerase V Transcripts and RNA- Directed DNA Methylation in Arabidopsis

et al. 2010

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Summary DNA methylation is an epigenetic modification associated with gene silencing. In Arabidopsis, DNA methylation is established by DOMAINS REARRANGED METHYLTRANSFERASE 2 (DRM2), which is targeted by small interfering RNAs through a pathway termed RNA-directed DNA methylation (RdDM)[1, 2]. Recently, RdDM was shown to require intergenic noncoding (IGN) transcripts that are dependent on the Pol V polymerase. These transcripts are proposed to function as scaffolds for the recruitment of downstream RdDM proteins, including DRM2, to loci that produce both siRNAs and IGN transcripts[3]. However, the mechanism(s) through which Pol V is targeted to specific genomic loci remains largely unknown. Through affinity purification of two known RdDM components, DEFECTIVE IN RNA-DIRECTED DNA METHYLATION 1 (DRD1)[4] and DEFECTIVE IN MERISTEM SILENCING 3 (DMS3)[5, 6], we found that they copurify with each other and with a novel protein, RNA-DIRECTED DNA METHYLATION 1 (RDM1), forming a complex we term DDR. We also found that DRD1 copurified with Pol V subunits and that, RDM1, like DRD1[3] and DMS3[7], is required for the production of Pol V-dependent transcripts. These results suggest that the DDR complex acts in RdDM at a step upstream of the recruitment or activation of Pol V.

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Israel Ausín

A One Precursor One siRNA Model for Pol IV-Dependent siRNA Biogenesis

Regulation of flowering time by FVE, a retinoblastoma-associated protein

A Protein Complex Required for Polymerase V Transcripts and RNA- Directed DNA Methylation in Arabidopsis

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