When a eukaryotic cell divides, tension builds at centromeres as spindle forces pull chromosomes toward opposite poles during metaphase. New data show that centromeric chromatin stretches in response to these forces, revealing a mechanical role for chromatin packaging in mitosis
During mitosis, chromosomes are connected to a microtubule-based spindle. Current models propose tha...
Chromosome segregation during mitosis requires that two forces act on DNA: one that pulls chromatids...
The centromere is the DNA locus that dictates kinetochore formation and is visibly apparent as heter...
When a eukaryotic cell divides, tension builds at centromeres as spindle forces pull chromosomes tow...
The segregation of eukaryotic chromosomes during mitosis requires their extensive folding into units...
During eukaryotic cell division, nuclear chromatin undergoes marked changes with respect to shape an...
Abstract The segregation of eukaryotic chromosomes during mitosis requires their extensive folding i...
During eukaryotic cell division, nuclear chromatin undergoes marked changes with respect to shape an...
Mitosis is the shortest phase of the cell cycle but visually the most outstanding. The key goal of m...
A conserved feature of virtually all higher eukaryotes is that the centromeres are embedded in heter...
SummaryBackgroundChromosome instability is thought to be a major contributor to cancer malignancy an...
How eukaryotic chromosomes are compacted during mitosis has been a leading question in cell biology ...
SummaryBackgroundPrior to chromosome segregation, the mitotic spindle bi-orients and aligns sister c...
Abstract During the eukaryotic cell cycle, chromatin undergoes several conformational changes, which...
The centromere is the DNA locus that dictates kinetochore formation and is visibly apparent as heter...
During mitosis, chromosomes are connected to a microtubule-based spindle. Current models propose tha...
Chromosome segregation during mitosis requires that two forces act on DNA: one that pulls chromatids...
The centromere is the DNA locus that dictates kinetochore formation and is visibly apparent as heter...
When a eukaryotic cell divides, tension builds at centromeres as spindle forces pull chromosomes tow...
The segregation of eukaryotic chromosomes during mitosis requires their extensive folding into units...
During eukaryotic cell division, nuclear chromatin undergoes marked changes with respect to shape an...
Abstract The segregation of eukaryotic chromosomes during mitosis requires their extensive folding i...
During eukaryotic cell division, nuclear chromatin undergoes marked changes with respect to shape an...
Mitosis is the shortest phase of the cell cycle but visually the most outstanding. The key goal of m...
A conserved feature of virtually all higher eukaryotes is that the centromeres are embedded in heter...
SummaryBackgroundChromosome instability is thought to be a major contributor to cancer malignancy an...
How eukaryotic chromosomes are compacted during mitosis has been a leading question in cell biology ...
SummaryBackgroundPrior to chromosome segregation, the mitotic spindle bi-orients and aligns sister c...
Abstract During the eukaryotic cell cycle, chromatin undergoes several conformational changes, which...
The centromere is the DNA locus that dictates kinetochore formation and is visibly apparent as heter...
During mitosis, chromosomes are connected to a microtubule-based spindle. Current models propose tha...
Chromosome segregation during mitosis requires that two forces act on DNA: one that pulls chromatids...
The centromere is the DNA locus that dictates kinetochore formation and is visibly apparent as heter...
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