Dean Sanders scite author profile

Histone deacetylases remove acetyl groups from histone proteins and play important roles in many genomic processes. How histone deacetylases perform specialized molecular and biological functions in plants is poorly understood. Here, we identify HIGH EXPRESSION OF OSMOTICALLY RESPONSIVE GENES 15 (HOS15) as a core member of the Arabidopsis (Arabidopsis thaliana) HISTONE DEACETYLASE9-POWERDRESS (HDA9-PWR) complex. HOS15 immunoprecipitates with both HDA9 and PWR. Mutation of HOS15 induces histone hyperacetylation and methylation changes similar to hda9 and pwr mutants. HOS15, HDA9, and PWR are coexpressed in all organs, and mutant combinations display remarkable phenotypic resemblance and nonadditivity for organogenesis and developmental phase transitions. Ninety percent of HOS15-regulated genes are also controlled by HDA9 and PWR. HDA9 binds to and directly represses 92 genes, many of which are responsive to biotic and abiotic stimuli, including a family of ethylene response factor genes. Additionally, HOS15 regulates HDA9 nuclear accumulation and chromatin association. Collectively, this study establishes that HOS15 forms a core complex with HDA9 and PWR to control gene expression and plant development.

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High-resolution mapping of H4K16 and H3K23 acetylation reveals conserved and unique distribution patterns inArabidopsisand rice

Lü

Chen

Sanders

et al. 2015

Epigenetics

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UVR8 interacts with de novo DNA methyltransferase and suppresses DNA methylation in Arabidopsis

et al. 2021

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DNA methylation is an important epigenetic gene regulatory mechanism conserved in eukaryotes. Emerging evidence shows DNA methylation alterations in response to environmental cues. However, the mechanism of how cells sense these signals and reprogram the methylation landscape is poorly understood. Here, we uncovered a novel connection between ultraviolet B (UVB) signaling and DNA methylation involving UVB photoreceptor (UVR8) and a de novo DNA methyltransferase (DRM2) in Arabidopsis . We demonstrated that UVB acts through UVR8 to inhibit DRM2-mediated DNA methylation and transcriptional de-repression. Interestingly, DNA transposons with high DNA methylation are more sensitive to UVB irradiation. Mechanistically, UVR8 interacts with and negatively regulates DRM2 by preventing its chromatin association and inhibiting the methyltransferase activity. Collectively, this study identifies UVB as a potent inhibitor of DNA methylation and provides mechanistic insights into how signaling transduction cascades intertwine with chromatin to guide genome functions.

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Dean Sanders

HDA9-PWR-HOS15 Is a Core Histone Deacetylase Complex Regulating Transcription and Development

High-resolution mapping of H4K16 and H3K23 acetylation reveals conserved and unique distribution patterns inArabidopsisand rice

UVR8 interacts with de novo DNA methyltransferase and suppresses DNA methylation in Arabidopsis

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