© Banigan and Mirny. Chromosome compaction is essential for reliable transmission of genetic information. Experiments suggest that -1000-fold compaction is driven by condensin complexes that extrude chromatin loops, by progressively collecting chromatin fiber from one or both sides of the complex to form a growing loop. Theory indicates that symmetric two-sided loop extrusion can achieve such compaction, but recent single-molecule studies (Golfier et al., 2020) observed diverse dynamics of condensins that perform one-sided, symmetric two-sided, and asymmetric two-sided extrusion. We use simulations and theory to determine how these molecular properties lead to chromosome compaction. High compaction can be achieved if even a small fraction o...
Condensin, a structural maintenance of chromosomes (SMC) complex, has been shown to be a molecular m...
Condensin, a conserved member of the SMC protein family of ring-shaped multi-subunit protein complex...
The study of chromatin dynamics and motion is essential to the understanding of the rules of life; i...
During cell division, the genetic material of each cell, the DNA undergoes the most drastic rearran...
The mechanism by which chromatids and chromosomes are segregated during mitosis and meiosis is a maj...
During mitosis, human chromosomes are linearly compacted about 1000-fold by loop-extruding motors. R...
Condensin, a key component of the structure maintenance of chromosome (SMC) protein complexes, has r...
The rearrangement of interphase chromatin into mitotic chromosomes is crucial for faithful chromoso...
AbstractDuring cell division, chromosomes are compacted in length by more than a 100-fold. A wide ra...
It has been hypothesized that SMC protein complexes such as condensin and cohesin spatially organize...
AbstractMitotic chromosomes must be organised into a highly ordered and compacted form to allow prop...
Ring-shaped structural maintenance of chromosomes (SMC) complexes like condensin and cohesin extrude...
It has been a puzzle how decondensed interphase chromosomes remain essentially unknotted. The natura...
Condensin is a conserved SMC complex that uses its ATPase machinery to structure genomes, but how it...
To separate replicated sister chromatids during mitosis, eukaryotes and prokaryotes have structural ...
Condensin, a structural maintenance of chromosomes (SMC) complex, has been shown to be a molecular m...
Condensin, a conserved member of the SMC protein family of ring-shaped multi-subunit protein complex...
The study of chromatin dynamics and motion is essential to the understanding of the rules of life; i...
During cell division, the genetic material of each cell, the DNA undergoes the most drastic rearran...
The mechanism by which chromatids and chromosomes are segregated during mitosis and meiosis is a maj...
During mitosis, human chromosomes are linearly compacted about 1000-fold by loop-extruding motors. R...
Condensin, a key component of the structure maintenance of chromosome (SMC) protein complexes, has r...
The rearrangement of interphase chromatin into mitotic chromosomes is crucial for faithful chromoso...
AbstractDuring cell division, chromosomes are compacted in length by more than a 100-fold. A wide ra...
It has been hypothesized that SMC protein complexes such as condensin and cohesin spatially organize...
AbstractMitotic chromosomes must be organised into a highly ordered and compacted form to allow prop...
Ring-shaped structural maintenance of chromosomes (SMC) complexes like condensin and cohesin extrude...
It has been a puzzle how decondensed interphase chromosomes remain essentially unknotted. The natura...
Condensin is a conserved SMC complex that uses its ATPase machinery to structure genomes, but how it...
To separate replicated sister chromatids during mitosis, eukaryotes and prokaryotes have structural ...
Condensin, a structural maintenance of chromosomes (SMC) complex, has been shown to be a molecular m...
Condensin, a conserved member of the SMC protein family of ring-shaped multi-subunit protein complex...
The study of chromatin dynamics and motion is essential to the understanding of the rules of life; i...