In vivo, chromosomes due to dynamic association with protein factors fold to form three-dimensional structures. Many experiments have paved the way to understand folding and the nuclear architecture of the genome. On the basis of these experiments and models a fundamental understanding of the key principles that drive the physical organization has become possible through the concepts of loop and entropy. Using the concept of loop, models are now able to reproduce the results from several of the experiments within the framework of loop and entropy. Linking biological function to structure they moreover are able to make predictions
The mammalian nucleus is arguably the most complex cellular organelle. It houses the vast majority o...
Despite the successful linear sequencing of the human genome its three-dimensional structure is wide...
There is rapidly growing evidence that folding of the chromatin fibre inside the interphase nucleus ...
Mounting evidence is compiling linking the physical organizational structure of chromosomes and the ...
We investigate chromosome organization within the nucleus using polymer models whose formulation is ...
The architecture of the eukaryotic genome is characterized by a high degree of spatial organization....
<p>Out of the growing body of evidence demonstrating the role of higher-order chromatin organization...
The mechanisms beyond chromosome folding within the nuclei of eukaryotic cells have fundamental impl...
International audienceThe genetic information that instructs transcription and other cellular functi...
It has been known for over a century that chromatin is not randomly distributed within the nucleus. ...
One striking feature of chromatin organization is that chromosomes are compartmentalized into distin...
How do chromosomes fold and how does this depend on the organism and type of cell? This question has...
To understand how interphase chromatin is organized in eukaryotic cell nuclei, it is essential to un...
Rapport LAAS n° 11615International audienceChromatin is a multiscale structure on which transcriptio...
DNAs and proteins are major classes of biomolecules that differ in many aspects. However, a consider...
The mammalian nucleus is arguably the most complex cellular organelle. It houses the vast majority o...
Despite the successful linear sequencing of the human genome its three-dimensional structure is wide...
There is rapidly growing evidence that folding of the chromatin fibre inside the interphase nucleus ...
Mounting evidence is compiling linking the physical organizational structure of chromosomes and the ...
We investigate chromosome organization within the nucleus using polymer models whose formulation is ...
The architecture of the eukaryotic genome is characterized by a high degree of spatial organization....
<p>Out of the growing body of evidence demonstrating the role of higher-order chromatin organization...
The mechanisms beyond chromosome folding within the nuclei of eukaryotic cells have fundamental impl...
International audienceThe genetic information that instructs transcription and other cellular functi...
It has been known for over a century that chromatin is not randomly distributed within the nucleus. ...
One striking feature of chromatin organization is that chromosomes are compartmentalized into distin...
How do chromosomes fold and how does this depend on the organism and type of cell? This question has...
To understand how interphase chromatin is organized in eukaryotic cell nuclei, it is essential to un...
Rapport LAAS n° 11615International audienceChromatin is a multiscale structure on which transcriptio...
DNAs and proteins are major classes of biomolecules that differ in many aspects. However, a consider...
The mammalian nucleus is arguably the most complex cellular organelle. It houses the vast majority o...
Despite the successful linear sequencing of the human genome its three-dimensional structure is wide...
There is rapidly growing evidence that folding of the chromatin fibre inside the interphase nucleus ...