Qianwen Sun scite author profile

Long noncoding RNAs (lncRNAs) have been proposed to play important roles in gene regulation. However, their importance in epigenetic silencing and how specificity is determined remain controversial. We have investigated the cold-induced epigenetic switching mechanism involved in the silencing of Arabidopsis thaliana FLOWERING LOCUS C (FLC), which occurs during vernalization. Antisense transcripts, collectively named COOLAIR, are induced by prolonged cold before the major accumulation of histone 3 lysine 27 trimethylation (H3K27me3), characteristic of Polycomb silencing. We have found that COOLAIR is physically associated with the FLC locus and accelerates transcriptional shutdown of FLC during cold exposure. Removal of COOLAIR disrupted the synchronized replacement of H3K36 methylation with H3K27me3 at the intragenic FLC nucleation site during the cold. Consistently, genetic analysis showed COOLAIR and Polycomb complexes work independently in the cold-dependent silencing of FLC. Our data reveal a role for lncRNA in the coordinated switching of chromatin states that occurs during epigenetic regulation.flowering | long noncoding RNA | histone modifications | Polycomb | Arabidopsis

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R-Loop Stabilization Represses Antisense Transcription at the Arabidopsis FLC Locus

Sun

Csorba

Skourti-Stathaki

et al. 2013

Science

337

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Roles for long noncoding RNAs (lncRNAs) in gene expression are emerging, but regulation of the lncRNA itself is poorly understood. We have identified a homeodomain protein, AtNDX, that regulates COOLAIR, a set of antisense transcripts originating from the 3' end of Arabidopsis FLOWERING LOCUS C (FLC). AtNDX associates with single-stranded DNA rather than doublestranded DNA non-sequence-specifically in vitro, and localizes to a heterochromatic region in the COOLAIR promoter in vivo. Single-stranded DNA was detected in vivo as part of an RNA-DNA hybrid, or R-loop, that covers the COOLAIR promoter. R-loop stabilization mediated by AtNDX inhibits COOLAIR transcription, which in turn modifies FLC expression. Differential stabilization of R-loops could be a general mechanism influencing gene expression in many organisms.

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Functional Consequences of Splicing of the Antisense Transcript COOLAIR on FLC Transcription

et al. 2014

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SummaryAntisense transcription is widespread in many genomes; however, how much is functional is hotly debated. We are investigating functionality of a set of long noncoding antisense transcripts, collectively called COOLAIR, produced at Arabidopsis FLOWERING LOCUS C (FLC). COOLAIR initiates just downstream of the major sense transcript poly(A) site and terminates either early or extends into the FLC promoter region. We now show that splicing of COOLAIR is functionally important. This was revealed through analysis of a hypomorphic mutation in the core spliceosome component PRP8. The prp8 mutation perturbs a cotranscriptional feedback mechanism linking COOLAIR processing to FLC gene body histone demethylation and reduced FLC transcription. The importance of COOLAIR splicing in this repression mechanism was confirmed by disrupting COOLAIR production and mutating the COOLAIR proximal splice acceptor site. Our findings suggest that altered splicing of a long noncoding transcript can quantitatively modulate gene expression through cotranscriptional coupling mechanisms.

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Qianwen Sun

Antisense COOLAIR mediates the coordinated switching of chromatin states at FLC during vernalization

R-Loop Stabilization Represses Antisense Transcription at the Arabidopsis FLC Locus

Functional Consequences of Splicing of the Antisense Transcript COOLAIR on FLC Transcription

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