<p>(A) The first approach uses polymer models to simulate relevant interactions (both physical and biological) that explain experimental observations. (B) The second approach integrates diverse experimental observations to model a conformational ensemble that satisfies the experimental observations.</p
<p>(A) An ensemble of polymer chains, each chain, representing two copies for the 22 autosomes and t...
For eukaryotic cells, the biological processes in-volving regulatory DNA elements play an impor-tant...
International audienceIt is widely believed that the folding of the chromosome in the nucleus has a ...
The development of novel experimental technologies able to map genome-wide chromatin contacts, as Hi...
The advancement of experimental methodologies to investigate chromatin spatial interactions has prom...
International audienceThe spatial architecture and dynamics of the genomic material in the limited v...
In recent years the development of novel technologies, as Hi-C or GAM, allowed to investigate the sp...
Over the last decade, and especially after the advent of fluorescent in situ hybridization imaging a...
In recent years the development of novel technologies, as Hi-C or GAM, allowed to investigate the sp...
The development of new experimental technologies is opening the way to a deeper investigation of the...
The development of new experimental technologies is opening the way to a deeper investigation of the...
We introduce a computational model to simulate chromatin structure and dynamics. Starting from one-d...
The spatial organization of the chromatin in the nucleus is known to play an important role in trans...
Within cell nuclei, several biophysical processes occur in order to allow the correct activities of ...
The three-dimensional organisation of chromosomes can be probed using methods such as Capture-C. How...
<p>(A) An ensemble of polymer chains, each chain, representing two copies for the 22 autosomes and t...
For eukaryotic cells, the biological processes in-volving regulatory DNA elements play an impor-tant...
International audienceIt is widely believed that the folding of the chromosome in the nucleus has a ...
The development of novel experimental technologies able to map genome-wide chromatin contacts, as Hi...
The advancement of experimental methodologies to investigate chromatin spatial interactions has prom...
International audienceThe spatial architecture and dynamics of the genomic material in the limited v...
In recent years the development of novel technologies, as Hi-C or GAM, allowed to investigate the sp...
Over the last decade, and especially after the advent of fluorescent in situ hybridization imaging a...
In recent years the development of novel technologies, as Hi-C or GAM, allowed to investigate the sp...
The development of new experimental technologies is opening the way to a deeper investigation of the...
The development of new experimental technologies is opening the way to a deeper investigation of the...
We introduce a computational model to simulate chromatin structure and dynamics. Starting from one-d...
The spatial organization of the chromatin in the nucleus is known to play an important role in trans...
Within cell nuclei, several biophysical processes occur in order to allow the correct activities of ...
The three-dimensional organisation of chromosomes can be probed using methods such as Capture-C. How...
<p>(A) An ensemble of polymer chains, each chain, representing two copies for the 22 autosomes and t...
For eukaryotic cells, the biological processes in-volving regulatory DNA elements play an impor-tant...
International audienceIt is widely believed that the folding of the chromosome in the nucleus has a ...