Project description:In this study we examined the effects of loss of the MYST histone acetyltransferase TIP60 (KAT5) in mouse embryonic fibroblasts (MEFs), human embryonic kidney cells 293 (HEK293), and human osteosarcoma cells (U2OS) on cell proliferation, BrdU incorporation, cell cycle progression, apoptotic and other forms of cell death, DNA damage, histone acetylation at specific lysine residues and RNA expression levels. This dataset relates to HEK293 cells. To assess the effects of loss of TIP60 on RNA levels, RNA-seq was performed on HEK293 cells, where the TIP60 gene was mutated by CRISPR/Cas9 technology using single guide RNA #1 (g1/C9), single guide RNA #2 (g2/C9), or guide-only controls (g1 or g2). The expression of the guide RNA was induced with doxycycline treatment for 3 days to induce TIP60 gene mutation in the samples also expressing the Cas9 enzyme.

Project description:In this study we examined the effects of loss of the MYST histone acetyltransferase TIP60 (KAT5) in mouse embryonic fibroblasts (MEFs), human embryonic kidney cells 293 (HEK293), and human osteosarcoma cells (U2OS) on cell proliferation, BrdU incorporation, cell cycle progression, apoptotic and other forms of cell death, DNA damage, histone acetylation at specific lysine residues and RNA expression levels. This dataset relates to U2OS cells. To assess the effects of loss of TIP60 on RNA levels, RNA-seq was performed on U2OS cells, where the TIP60 gene was mutated by CRISPR/Cas9 technology using single guide RNA #1 (g1/C9), single guide RNA #2 (g2/C9), or guide-only controls (g1 or g2). The expression of the guide RNA was induced with doxycycline treatment for 4 days to induce TIP60 gene mutation in the samples also expressing the Cas9 enzyme.

Project description:RNA-sequencing data of TIP60 mutated and control U2OS cells

Project description:In this study we examined the effects of loss of the MYST histone acetyltransferase TIP60 (KAT5) in mouse embryonic fibroblasts (MEFs), human embryonic kidney cells 293 (HEK293), and human osteosarcoma cells (U2OS) on cell proliferation, BrdU incorporation, cell cycle progression, apoptotic and other forms of cell death, DNA damage, histone acetylation at specific lysine residues and RNA expression levels. This dataset relates to MEFs. To assess the effects of loss of TIP60 on RNA levels, RNA-seq was performed on MEFs, where the TIP60 gene was deleted using Cre/loxP technology. Nuclear translocation was induced with 4-OH-tamoxifen treatment for 3 and 5 days to induce TIP60 gene deletion in the samples also containing the loxP sited in the Tip60 locus.

Project description:RNA-sequencing data of Tip60 deleted and control mouse embryonic fibrobasts

Project description:RNA-seq of HEK293-TRDMT1-KD and HEK293 control

Project description:The Tip60 (also known as Kat5) lysine acetyltransferase functions broadly as a transcriptional co-activator that acetylates histones. In contrast, Tip60 functions in embryonic stem cells (ESCs) both to silence genes that promote differentiation and to activate genes required for proliferation. The mechanism by which Tip60 functions as a repressor is unknown. Here we show that the class II histone deacetylase Hdac6 co-purifies with Tip60-p400 complex from ESCs and is necessary for complete silencing of most differentiation genes targeted by Tip60. In contrast to differentiated cells, where Hdac6 is mainly cytoplasmic and does not interact with Tip60, Hdac6 is largely nuclear in ESCs and neural stem cells (NSCs) and interacts with Tip60-p400 in both cell types. Hdac6 is enriched at promoters bound by Tip60-p400 in ESCs, but while Tip60 binds on both sides of transcription start sites (TSSs), Hdac6 binding overlaps with only the downstream Tip60 peak. Surprisingly, Hdac6 does not deacetylate histones at these sites, but rather is required for Tip60 binding. These data suggest that nuclear exclusion of Hdac6 during differentiation plays a major role in modulation of Tip60-p400 function. We determined the genome-wide localization of Tip60 and Hdac6 in mouse ES cells, and examined genomic binding profiles of Tip60 and Hdac6 upon indicated knockdown by ChIP-seq. We examined genomic binding profiles of p400 upon indicated knockdown by ChIP-seq.

Project description:TIP60 mutant and control RNA-seq and CUTandTag-seq data

Project description:The Tip60 (also known as Kat5) lysine acetyltransferase functions broadly as a transcriptional co-activator that acetylates histones. In contrast, Tip60 functions in embryonic stem cells (ESCs) both to silence genes that promote differentiation and to activate genes required for proliferation. The mechanism by which Tip60 functions as a repressor is unknown. Here we show that the class II histone deacetylase Hdac6 co-purifies with Tip60-p400 complex from ESCs and is necessary for complete silencing of most differentiation genes targeted by Tip60. In contrast to differentiated cells, where Hdac6 is mainly cytoplasmic and does not interact with Tip60, Hdac6 is largely nuclear in ESCs and neural stem cells (NSCs) and interacts with Tip60-p400 in both cell types. Hdac6 is enriched at promoters bound by Tip60-p400 in ESCs, but while Tip60 binds on both sides of transcription start sites (TSSs), Hdac6 binding overlaps with only the downstream Tip60 peak. Surprisingly, Hdac6 does not deacetylate histones at these sites, but rather is required for Tip60 binding. These data suggest that nuclear exclusion of Hdac6 during differentiation plays a major role in modulation of Tip60-p400 function.

Project description:RNA-seq of 6 samples, 3 of them are TRDMT1 knockdown in HEK293 cells named HEK293-TRDMT1-KD and 3 of them are HEK293 control.