Transient DNA loops occur throughout the genome due to thermal fluctuations of DNA and the function of SMC complex proteins such as condensin and cohesin. Transient crosslinking within and between chromosomes and loop extrusion by SMCs have profound effects on high-order chromatin organization and exhibit specificity in cell type, cell cycle stage, and cellular environment. SMC complexes anchor one end to DNA with the other extending some distance and retracting to form a loop. How cells regulate loop sizes and how loops distribute along chromatin are emerging questions. To understand loop size regulation, we employed bead–spring polymer chain models of chromatin and the activity of an SMC complex on chromatin. Our study shows that (1) the ...
AbstractThe packing of eukaryotic DNA in the nucleus is decisive for its function; for instance, con...
ChromoShake is a three-dimensional simulator designed to explore the range of configurational states...
The mammalian genome has a complex, functional 3D organization. However, it remains largely unknown ...
The revolution in understanding higher order chromosome dynamics and organization derives from treat...
The extreme length of chromosomal DNA requires organizing mechanisms to both promote functional gene...
In higher eukaryotes, chromosomes have a complex three-dimensional (3D) conformation in the cell nuc...
In the cell nucleus, chromosomes have a complex spatial organization, spanning several length scales...
Structural Maintenance of Chromosomes (SMC) complexes play essential roles in genome organization ac...
The study of chromatin dynamics and motion is essential to the understanding of the rules of life; i...
International audienceUnderstanding how genomes fold and organize is one of the main challenges in m...
In mammalian cell nuclei, chromatin has a spatial organization that is strictly related to cellular ...
Advances in microscopy and genomic techniques have provided new insight into spatial chromatin organ...
SummaryThere is now convincing evidence that genomes are organized into loops, and that looping brin...
Chromosomes have a complex architecture in the cell nucleus, which serves vital functional purposes,...
There is rapidly growing evidence that folding of the chromatin fibre inside the interphase nucleus ...
AbstractThe packing of eukaryotic DNA in the nucleus is decisive for its function; for instance, con...
ChromoShake is a three-dimensional simulator designed to explore the range of configurational states...
The mammalian genome has a complex, functional 3D organization. However, it remains largely unknown ...
The revolution in understanding higher order chromosome dynamics and organization derives from treat...
The extreme length of chromosomal DNA requires organizing mechanisms to both promote functional gene...
In higher eukaryotes, chromosomes have a complex three-dimensional (3D) conformation in the cell nuc...
In the cell nucleus, chromosomes have a complex spatial organization, spanning several length scales...
Structural Maintenance of Chromosomes (SMC) complexes play essential roles in genome organization ac...
The study of chromatin dynamics and motion is essential to the understanding of the rules of life; i...
International audienceUnderstanding how genomes fold and organize is one of the main challenges in m...
In mammalian cell nuclei, chromatin has a spatial organization that is strictly related to cellular ...
Advances in microscopy and genomic techniques have provided new insight into spatial chromatin organ...
SummaryThere is now convincing evidence that genomes are organized into loops, and that looping brin...
Chromosomes have a complex architecture in the cell nucleus, which serves vital functional purposes,...
There is rapidly growing evidence that folding of the chromatin fibre inside the interphase nucleus ...
AbstractThe packing of eukaryotic DNA in the nucleus is decisive for its function; for instance, con...
ChromoShake is a three-dimensional simulator designed to explore the range of configurational states...
The mammalian genome has a complex, functional 3D organization. However, it remains largely unknown ...