Add to ORKGNucleosome modifications in the genome influence local heterochromatin state. Varied examples of epigenetics rely on transgenerational effects and heritability of expression states between cell (mitotic) or organismal (meiotic) generations. Most of the current focus is on transgenerational inheritance of expression states determined by methylation of lysine-4 and lysine-9 sites of histone H3. We will use photoswitchable protein Dendra2 fused to histone protein H3 to test the nature of histone-based heritability in the germline stem cell niche of male Drosophila melanogaster. Photoswitching provides a solid time-point measure of which H3 proteins are present at the time of UV exposure and which proteins are new at the time of photography...
SummaryPosttranslational histone modifications are important for gene regulation, yet the mode of pr...
Nucleosomes consist of a complex of DNA and an octameric core of histone proteins, which represent t...
Stem cells have the unique ability to undergo asymmetric division in order to produce two geneticall...
Inheritance of gene transcription programs from parental cells to daughter cells requires the existe...
Eukaryotic DNA is packaged into chromatin to fit in the limited dimensions of the nucleus. The basic...
Chromatin plays fundamental roles in packaging the genome within the nucleus and in regulating biolo...
SummaryChanges in chromatin composition accompany cellular differentiation in eukaryotes. Although b...
Despite the fundamental role of canonical histones in nucleosome structure, there is no experimental...
Transgenerational epigenetic inheritance (TEI) describes the transmission of alternative functional ...
The chromatin landscape defines cellular identity in multicellular organisms with unique patterns of...
In eukaryotes, nucleosomes form a barrier to DNA templated reactions and must be dynamically disrupt...
Chromatin is composed of DNA and a variety of modified histones and non-histone proteins, which have...
Gene transcription in eukaryotes is regulated through dynamic interactions of a variety of different...
In eukaryotic cells, the DNA damage response involves a reorganization of chromatin structure. This ...
Chromatin is composed of DNA and a variety of modified histones and non-histone proteins, which have...
SummaryPosttranslational histone modifications are important for gene regulation, yet the mode of pr...
Nucleosomes consist of a complex of DNA and an octameric core of histone proteins, which represent t...
Stem cells have the unique ability to undergo asymmetric division in order to produce two geneticall...
Inheritance of gene transcription programs from parental cells to daughter cells requires the existe...
Eukaryotic DNA is packaged into chromatin to fit in the limited dimensions of the nucleus. The basic...
Chromatin plays fundamental roles in packaging the genome within the nucleus and in regulating biolo...
SummaryChanges in chromatin composition accompany cellular differentiation in eukaryotes. Although b...
Despite the fundamental role of canonical histones in nucleosome structure, there is no experimental...
Transgenerational epigenetic inheritance (TEI) describes the transmission of alternative functional ...
The chromatin landscape defines cellular identity in multicellular organisms with unique patterns of...
In eukaryotes, nucleosomes form a barrier to DNA templated reactions and must be dynamically disrupt...
Chromatin is composed of DNA and a variety of modified histones and non-histone proteins, which have...
Gene transcription in eukaryotes is regulated through dynamic interactions of a variety of different...
In eukaryotic cells, the DNA damage response involves a reorganization of chromatin structure. This ...
Chromatin is composed of DNA and a variety of modified histones and non-histone proteins, which have...
SummaryPosttranslational histone modifications are important for gene regulation, yet the mode of pr...
Nucleosomes consist of a complex of DNA and an octameric core of histone proteins, which represent t...
Stem cells have the unique ability to undergo asymmetric division in order to produce two geneticall...