ChromoShake is a three-dimensional simulator designed to explore the range of configurational states a chromosome can adopt based on thermodynamic fluctuations of the polymer chain. Here, we refine ChromoShake to generate dynamic simulations of a DNA-based motor protein such as condensin walking along the chromatin substrate. We model walking as a rotation of DNA-binding heat-repeat proteins around one another. The simulation is applied to several configurations of DNA to reveal the consequences of mechanical stepping on taut chromatin under tension versus loop extrusion on single-tethered, floppy chromatin substrates. These simulations provide testable hypotheses for condensin and other DNA-based motors functioning along interphase chromos...
It has been a puzzle how decondensed interphase chromosomes remain essentially unknotted. The natura...
Structural Maintenance of Chromosomes (SMC) complexes play essential roles in genome organization ac...
International audienceUnderstanding how genomes fold and organize is one of the main challenges in m...
ChromoShake is a three-dimensional simulator designed to explore the range of configurational states...
The revolution in understanding higher order chromosome dynamics and organization derives from treat...
A novel chromosome simulator recapitulates the position and dynamics of centromeric chromatin in a m...
Chromatin fibers composed of DNA and proteins fold into consecutive loops to form rod-shaped chromos...
The study of chromatin dynamics and motion is essential to the understanding of the rules of life; i...
Transient DNA loops occur throughout the genome due to thermal fluctuations of DNA and the function ...
Polymer models have long been used to study the properties and behaviour of DNA, however the princip...
The mechanism by which chromatids and chromosomes are segregated during mitosis and meiosis is a maj...
The rearrangement of interphase chromatin into mitotic chromosomes is crucial for faithful chromoso...
It has been a puzzle how decondensed interphase chromosomes remain essentially unknotted. The natura...
Clear organizational patterns on the genome have emerged from the statistics of population studies o...
In eukaryotes, chromosomes reside in the crowded environment of the cell nucleus. Understanding the ...
It has been a puzzle how decondensed interphase chromosomes remain essentially unknotted. The natura...
Structural Maintenance of Chromosomes (SMC) complexes play essential roles in genome organization ac...
International audienceUnderstanding how genomes fold and organize is one of the main challenges in m...
ChromoShake is a three-dimensional simulator designed to explore the range of configurational states...
The revolution in understanding higher order chromosome dynamics and organization derives from treat...
A novel chromosome simulator recapitulates the position and dynamics of centromeric chromatin in a m...
Chromatin fibers composed of DNA and proteins fold into consecutive loops to form rod-shaped chromos...
The study of chromatin dynamics and motion is essential to the understanding of the rules of life; i...
Transient DNA loops occur throughout the genome due to thermal fluctuations of DNA and the function ...
Polymer models have long been used to study the properties and behaviour of DNA, however the princip...
The mechanism by which chromatids and chromosomes are segregated during mitosis and meiosis is a maj...
The rearrangement of interphase chromatin into mitotic chromosomes is crucial for faithful chromoso...
It has been a puzzle how decondensed interphase chromosomes remain essentially unknotted. The natura...
Clear organizational patterns on the genome have emerged from the statistics of population studies o...
In eukaryotes, chromosomes reside in the crowded environment of the cell nucleus. Understanding the ...
It has been a puzzle how decondensed interphase chromosomes remain essentially unknotted. The natura...
Structural Maintenance of Chromosomes (SMC) complexes play essential roles in genome organization ac...
International audienceUnderstanding how genomes fold and organize is one of the main challenges in m...