They discovered that DNA packaging sends signals through an unusual pathway, affecting the cell's ability to divide and grow. This opens up new doors to study how the copying of the DNA and its ...

They discovered that DNA packaging sends signals through an unusual pathway, affecting the cell’s ability to divide and grow. This opens up new doors to study how the copying of the DNA and its ...

They discovered that DNA packaging sends signals through an unusual pathway, affecting the cell's ability to divide and grow. This opens up new doors to study how the copying of the DNA and its ...

Perhaps the most interesting and well-studied target of these additions and subtractions lies within the bustling nucleus, where various enzymes attach or remove two small molecules — methyl groups ...

Histones are key proteins in the organisation and regulation of DNA in all eukaryotic cells, i.e. cells in which DNA is contained in a nucleus. This includes fungi, plants and animals. However ...

They discovered that DNA packaging sends signals through an unusual pathway, affecting the cell's ability to divide and grow. This opens up new doors to study how the copying of the DNA and its ...

Histones are not only essential for packaging and DNA into a compact form called chromatin, but also are decorated with chemical modifications that serve as signals or signposts marking locations ...

At the same time, significant analytical differences were detected between the histones from the two types of cells. These results suggested to us the possibility that each nucleus possesses a ...

On the other hand, DNA tight packaging is caused by its coiling around histone proteins, which provide structural support to a chromatin. Through de-acetylation and acetylation of lysine residues, the ...