Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
KDM3A regulates alternative splicing of cell-cycle genes following DNA damage
View through CrossRef
Changes in the cellular environment result in chromatin structure alteration, which in turn regulates gene expression. To learn about the effect of the cellular environment on the transcriptome, we studied the H3K9 demethylase KDM3A. Using RNA-seq, we found that KDM3A regulates the transcription and alternative splicing of genes associated with cell cycle and DNA damage. We showed that KDM3A undergoes phosphorylation by PKA at serine 265 following DNA damage, and that the phosphorylation is important for proper cell-cycle regulation. We demonstrated that SAT1 alternative splicing, regulated by KDM3A, plays a role in cell-cycle regulation. Furthermore we found that KDM3A's demethylase activity is not needed for SAT1 alternative splicing regulation. In addition, we identified KDM3A's protein partner ARID1A, the SWI/SNF subunit, and SRSF3 as regulators of SAT1 alternative splicing and showed that KDM3A is essential for SRSF3 binding to SAT1 pre-mRNA. These results suggest that KDM3A serves as a sensor of the environment and an adaptor for splicing factor binding. Our work reveals chromatin sensing of the environment in the regulation of alternative splicing.
Cold Spring Harbor Laboratory
Title: KDM3A regulates alternative splicing of cell-cycle genes following DNA damage
Description:
Changes in the cellular environment result in chromatin structure alteration, which in turn regulates gene expression.
To learn about the effect of the cellular environment on the transcriptome, we studied the H3K9 demethylase KDM3A.
Using RNA-seq, we found that KDM3A regulates the transcription and alternative splicing of genes associated with cell cycle and DNA damage.
We showed that KDM3A undergoes phosphorylation by PKA at serine 265 following DNA damage, and that the phosphorylation is important for proper cell-cycle regulation.
We demonstrated that SAT1 alternative splicing, regulated by KDM3A, plays a role in cell-cycle regulation.
Furthermore we found that KDM3A's demethylase activity is not needed for SAT1 alternative splicing regulation.
In addition, we identified KDM3A's protein partner ARID1A, the SWI/SNF subunit, and SRSF3 as regulators of SAT1 alternative splicing and showed that KDM3A is essential for SRSF3 binding to SAT1 pre-mRNA.
These results suggest that KDM3A serves as a sensor of the environment and an adaptor for splicing factor binding.
Our work reveals chromatin sensing of the environment in the regulation of alternative splicing.
Related Results
KDM3A regulates alternative splicing of cell-cycle genes following DNA damage
KDM3A regulates alternative splicing of cell-cycle genes following DNA damage
ABSTRACTChanges in the cellular environment result in chromatin structure alteration, which in turn regulates gene expression. To learn about the effect of the cellular environment...
Genome wide hypomethylation and youth-associated DNA gap reduction promoting DNA damage and senescence-associated pathogenesis
Genome wide hypomethylation and youth-associated DNA gap reduction promoting DNA damage and senescence-associated pathogenesis
Abstract
Background: Age-associated epigenetic alteration is the underlying cause of DNA damage in aging cells. Two types of youth-associated DNA-protection epigenetic mark...
Abstract 1635: The histone demethylase KDM3A in Ewing Sarcoma metastasis
Abstract 1635: The histone demethylase KDM3A in Ewing Sarcoma metastasis
Abstract
This study aims to explore the roles and mechanisms of new candidates for therapeutic targeting in Ewing Sarcoma. Ewing Sarcoma is an aggressive pediatric m...
Nuclear Encoded RNA Splicing Factors in Plant Mitochondria
Nuclear Encoded RNA Splicing Factors in Plant Mitochondria
Mitochondria are the site of respiration and numerous other metabolic processes required for plant growth and development. Increased demands for metabolic energy are observed durin...
DdcA antagonizes a bacterial DNA damage checkpoint
DdcA antagonizes a bacterial DNA damage checkpoint
AbstractBacteria coordinate DNA replication and cell division, ensuring that a complete set of genetic material is passed onto the next generation. When bacteria encounter DNA dama...
MARS-seq2.0: an experimental and analytical pipeline for indexed sorting combined with single-cell RNA sequencing v1
MARS-seq2.0: an experimental and analytical pipeline for indexed sorting combined with single-cell RNA sequencing v1
Human tissues comprise trillions of cells that populate a complex space of molecular phenotypes and functions and that vary in abundance by 4–9 orders of magnitude. Relying solely ...
Abstract 3504: Regulation of cell cycle progression by Ikaros in leukemia
Abstract 3504: Regulation of cell cycle progression by Ikaros in leukemia
Abstract
Control of cell cycle progression is achieved by the coordinated function of a large set of genes that are highly conserved in eukaryotic organisms. Maligna...
Abstract 4679: A novel assay to predict susceptibility to tobacco-induced disease.
Abstract 4679: A novel assay to predict susceptibility to tobacco-induced disease.
Abstract
Background: Tobacco misuse is the leading preventable cause of morbidity and mortality in the world. Tobacco-induced DNA damage is one of the main mechanism...