Add to ORKGThe chromatin structure is important for recognition and repair of DNA damage. Many DNA damage response proteins accumulate in large chromatin domains flanking sites of DNA double-strand breaks. The assembly of these structures—usually termed DNA damage foci—is primarily regulated by MDC1, a large nuclear mediator/adaptor protein that is composed of several distinct structural and functional domains. Here, we are summarizing the latest discoveries about the mechanisms by which MDC1 mediates DNA damage foci formation, and we are reviewing the considerable efforts taken to understand the functional implication of these structure
AbstractChromatin modifications regulate many nuclear processes. Recent studies on the phosphorylati...
The human genome contains around 1.2% protein coding sequences and over 50% repetitive elements. Wit...
Resumen del póster presentado a la EACR Conference: Protecting the Code, Epigenetic Impacts on Genom...
Mdc1 is a large modular phosphoprotein scaffold that maintains signaling and repair complexes at dou...
Chromatin is the context for all DNA-based molecular processes taking place in the cell nucleus. The...
Cellular DNA is constantly challenged by damage-inducing factors derived from exogenous or endogenou...
AbstractDNA is protected by packaging it into higher order chromatin fibres, but this can impede nuc...
Hierarchical levels of chromatin organization allow different genomic functions to be spatio-tempora...
International audienceThe inability to repair damaged DNA severely compromises the integrity of any ...
All DNA transactions, including the repair of damaged DNA, take place in the context of a highly org...
SummaryHistone variant H2AX phosphorylation in response to DNA damage is the major signal for recrui...
The cellular DNA damage response (DDR) is initiated by the rapid recruitment of repair factors to th...
In eukaryotes, genomic DNA is tightly compacted into a protein-DNA complex known as chromatin. This ...
DNA double-strand breaks (DSBs) are hazardous to genome integrity and can promote mutations and dise...
Chromatin is organized and segmented into a landscape of domains that serve multiple purposes. In co...
AbstractChromatin modifications regulate many nuclear processes. Recent studies on the phosphorylati...
The human genome contains around 1.2% protein coding sequences and over 50% repetitive elements. Wit...
Resumen del póster presentado a la EACR Conference: Protecting the Code, Epigenetic Impacts on Genom...
Mdc1 is a large modular phosphoprotein scaffold that maintains signaling and repair complexes at dou...
Chromatin is the context for all DNA-based molecular processes taking place in the cell nucleus. The...
Cellular DNA is constantly challenged by damage-inducing factors derived from exogenous or endogenou...
AbstractDNA is protected by packaging it into higher order chromatin fibres, but this can impede nuc...
Hierarchical levels of chromatin organization allow different genomic functions to be spatio-tempora...
International audienceThe inability to repair damaged DNA severely compromises the integrity of any ...
All DNA transactions, including the repair of damaged DNA, take place in the context of a highly org...
SummaryHistone variant H2AX phosphorylation in response to DNA damage is the major signal for recrui...
The cellular DNA damage response (DDR) is initiated by the rapid recruitment of repair factors to th...
In eukaryotes, genomic DNA is tightly compacted into a protein-DNA complex known as chromatin. This ...
DNA double-strand breaks (DSBs) are hazardous to genome integrity and can promote mutations and dise...
Chromatin is organized and segmented into a landscape of domains that serve multiple purposes. In co...
AbstractChromatin modifications regulate many nuclear processes. Recent studies on the phosphorylati...
The human genome contains around 1.2% protein coding sequences and over 50% repetitive elements. Wit...
Resumen del póster presentado a la EACR Conference: Protecting the Code, Epigenetic Impacts on Genom...