Rong-Nan Lin scite author profile

Deposition of H2A.Z in chromatin is known to be mediated by a conserved SWR1 chromatin‐remodeling complex in eukaryotes. However, little is known about whether and how the SWR1 complex cooperates with other chromatin regulators. Using immunoprecipitation followed by mass spectrometry, we found all known components of the Arabidopsis thaliana SWR1 complex and additionally identified the following three classes of previously uncharacterized plant‐specific SWR1 components: MBD9, a methyl‐CpG‐binding domain‐containing protein; CHR11 and CHR17 (CHR11/17), ISWI chromatin remodelers responsible for nucleosome sliding; and TRA1a and TRA1b, accessory subunits of the conserved NuA4 histone acetyltransferase complex. MBD9 directly interacts with CHR11/17 and the SWR1 catalytic subunit PIE1, and is responsible for the association of CHR11/17 with the SWR1 complex. MBD9, TRA1a, and TRA1b function as canonical components of the SWR1 complex to mediate H2A.Z deposition. CHR11/17 are not only responsible for nucleosome sliding but also involved in H2A.Z deposition. These results indicate that the association of the SWR1 complex with CHR11/17 may facilitate the coupling of H2A.Z deposition with nucleosome sliding, thereby co‐regulating gene expression, development, and flowering time.

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A methylated‐DNA‐binding complex required for plant development mediates transcriptional activation of promoter methylated genes

Zhao

Lin

et al. 2019

JIPB

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Although the mechanism of DNA methylation‐mediated gene silencing is extensively studied, relatively little is known about how promoter methylated genes are protected from transcriptional silencing. SUVH1, an Arabidopsis Su(var)3‐9 homolog, was previously shown to be required for the expression of a few promoter methylated genes. By chromatin immunoprecipitation combined with sequencing, we demonstrate that SUVH1 binds to methylated genomic loci targeted by RNA‐directed DNA methylation. SUVH1 and its homolog SUVH3 function partially redundantly and interact with three DNAJ domain‐containing homologs, SDJ1, SDJ2, and SDJ3, thus forming a complex which we named SUVH‐SDJ. The SUVH‐SDJ complex components are co‐localized in a large number of methylated promoters and are required for the expression of a subset of promoter methylated genes. We demonstrate that the SUVH‐SDJ complex components have transcriptional activation activity. SUVH1 and SUVH3 function synergistically with SDJ1, SDJ2, and SDJ3 and are required for plant viability. This study reveals how the SUVH‐SDJ complex protects promoter methylated genes from transcriptional silencing and suggests that the transcriptional activation of promoter methylated genes mediated by the SUVH‐SDJ complex may play a critical role in plant growth and development.

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Dual Recognition of H3K4me3 and DNA by the ISWI Component ARID5 Regulates the Floral Transition in Arabidopsis

Tan

Liu

et al. 2020

Plant Cell

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The HDA19 histone deacetylase complex is involved in the regulation of flowering time in a photoperiod‐dependent manner

et al. 2019

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Chromatin modifications are known to affect flowering time in plants, but little is known about how these modifications regulate flowering time in response to environmental signals like photoperiod. In Arabidopsis thaliana, HDC1, a conserved subunit of the RPD3-like histone deacetylase (HDAC) complex, was previously reported to regulate flowering time via the same mechanism as does the HDAC HDA6. Here, we demonstrate that HDC1, SNLs and MSI1 are shared subunits of the HDA6 and HDA19 HDAC complexes. While the late-flowering phenotype of the hda6 mutant is independent of photoperiod, the hda19, hdc1 and snl2/3/4 mutants flower later than or at a similar time to the wild-type in long-day conditions but flower earlier than the wild-type in short-day conditions. Our genome-wide analyses indicate that the effect of hdc1 on histone acetylation and transcription is comparable with that of hda19 but is different from that of hda6. Especially, we demonstrate that the HDA19 complex directly regulates the expression of two flowering repressor genes related to the gibberellin signaling pathway. Thus, the study reveals a photoperiod-dependent role of the HDA19 HDAC complex in the regulation of flowering time.

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The CCR4‐NOT complex component NOT1 regulates RNA‐directed DNA methylation and transcriptional silencing by facilitating Pol IV‐dependent siRNA production

et al. 2020

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Small interfering RNAs (siRNAs) are responsible for establishing and maintaining DNA methylation through RNA-directed DNA methylation (RdDM) pathway in plants. Although the siRNA biogenesis is well known, it is relatively unclear about how the process is regulated. By a forward genetic screen in Arabidopsis thaliana, we identified a mutant defective in NOT1 and demonstrated that NOT1 is required for transcriptional silencing at RdDM target genomic loci. We demonstrated that NOT1 is required for Pol IV-dependent siRNA accumulation and DNA methylation at a subset of RdDM target genomic loci. Furthermore, we revealed that NOT1 is a constituent of a multi-subunit CCR4-NOT deadenylase complex by immunoprecipitation combined with mass spectrometry and demonstrated that the CCR4-NOT components can function as a whole to mediate chromatin silencing. Our work thus establishes that the CCR4-NOT complex regulates the biogenesis of Pol IV-dependent siRNAs and thereby facilitates DNA methylation and transcriptional silencing in Arabidopsis.

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Rong-Nan Lin

A plant‐specific SWR1 chromatin‐remodeling complex couples histone H2A.Z deposition with nucleosome sliding

A methylated‐DNA‐binding complex required for plant development mediates transcriptional activation of promoter methylated genes

Dual Recognition of H3K4me3 and DNA by the ISWI Component ARID5 Regulates the Floral Transition in Arabidopsis

The HDA19 histone deacetylase complex is involved in the regulation of flowering time in a photoperiod‐dependent manner

The CCR4‐NOT complex component NOT1 regulates RNA‐directed DNA methylation and transcriptional silencing by facilitating Pol IV‐dependent siRNA production

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