Despite progress in understanding chromatin function, the structure of the 30 nm chromatin fiber has remained elusive. However, with the recent crystal structure of a short tetranucleosomal array, the 30 nm fiber is beginning to come into view
Why most of the in vivo experiments do not find the 30-nm chromatin fiber, well studied in vitro, is...
International audienceChromatin adopts a diversity of regular and irregular fiber structures in vitr...
During cell division, mitotic chromosomes assemble and are equally distributed into two new daughter...
Despite progress in understanding chromatin function, the structure of the 30 nm chromatin fiber has...
Recent in situ three-dimensional structural studies have provided a new model for the 30 nm chromati...
In eukaryotic cells, genomic DNA is highly packaged into chromatin to fit inside the nucleus. The ac...
The folding of the nucleosome array into a chromatin fiber modulates DNA accessibility and is theref...
AbstractEukaryotic genomes are organized hierarchically into chromatin structures by histones. Despi...
AbstractThe tendency of DNA to form fibers upon condensation with counterions is reviewed. It is sho...
In addition to being the gateway for all access to the eukaryotic genome, chromatin has in recent ye...
AbstractIn addition to being the gateway for all access to the eukaryotic genome, chromatin has in r...
Nucleosomes cover eukaryotic genomes like beads on a string and play a central role in regulating ge...
We present a model that predicts the geometry of chromatin fibers as a function of the DNA repeat le...
Why most of the in vivo experiments do not find the 30-nm chromatin fiber, well studied in vitro, is...
DNA in eukaryotic cell nuclei is packaged in a highly compact, yet dynamic chromatin structure that ...
Why most of the in vivo experiments do not find the 30-nm chromatin fiber, well studied in vitro, is...
International audienceChromatin adopts a diversity of regular and irregular fiber structures in vitr...
During cell division, mitotic chromosomes assemble and are equally distributed into two new daughter...
Despite progress in understanding chromatin function, the structure of the 30 nm chromatin fiber has...
Recent in situ three-dimensional structural studies have provided a new model for the 30 nm chromati...
In eukaryotic cells, genomic DNA is highly packaged into chromatin to fit inside the nucleus. The ac...
The folding of the nucleosome array into a chromatin fiber modulates DNA accessibility and is theref...
AbstractEukaryotic genomes are organized hierarchically into chromatin structures by histones. Despi...
AbstractThe tendency of DNA to form fibers upon condensation with counterions is reviewed. It is sho...
In addition to being the gateway for all access to the eukaryotic genome, chromatin has in recent ye...
AbstractIn addition to being the gateway for all access to the eukaryotic genome, chromatin has in r...
Nucleosomes cover eukaryotic genomes like beads on a string and play a central role in regulating ge...
We present a model that predicts the geometry of chromatin fibers as a function of the DNA repeat le...
Why most of the in vivo experiments do not find the 30-nm chromatin fiber, well studied in vitro, is...
DNA in eukaryotic cell nuclei is packaged in a highly compact, yet dynamic chromatin structure that ...
Why most of the in vivo experiments do not find the 30-nm chromatin fiber, well studied in vitro, is...
International audienceChromatin adopts a diversity of regular and irregular fiber structures in vitr...
During cell division, mitotic chromosomes assemble and are equally distributed into two new daughter...
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