DOIAbstract
AbstractA mitotic checkpoint arrests cell cycle progression in response to spindle damage. It now appears that this checkpoint has two separate arms, one that prevents anaphase and a second that prevents cytokinesis and DNA re-replication
AbstractA mitotic checkpoint arrests cell cycle progression in response to spindle damage. It now appears that this checkpoint has two separate arms, one that prevents anaphase and a second that prevents cytokinesis and DNA re-replication
Chromosome segregation is a complex and astonishingly accurate process whose inner working is beginn...
The spindle checkpoint assembly (SAC) ensures genome fidelity by temporarily delaying anaphase onset...
Cancer cells contain abnormal number of chromosomes (aneuploidy), which is a prevalent form of genet...
AbstractA mitotic checkpoint arrests cell cycle progression in response to spindle damage. It now ap...
During mitosis and meiosis, the spindle assembly checkpoint acts to maintain genome stability by del...
The mitotic checkpoint prevents a eukaryotic cell from commencing to separate its replicated genome ...
During mitosis and meiosis, the spindle assembly checkpoint acts to maintain genome stability by del...
AbstractThe spindle checkpoint assembly (SAC) ensures genome fidelity by temporarily delaying anapha...
The spindle assembly checkpoint ensures that mitotic cells only segregate their sister chromatids on...
The spindle assembly checkpoint ensures that mitotic cells only segregate their sister chromatids on...
The spindle assembly checkpoint ensures that mitotic cells only segregate their sister chromatids on...
The spindle assembly checkpoint is a safeguard mechanism that coordinates cell-cycle progression dur...
The mitotic checkpoint delays chromosome segregation until the last chromosome has correctly attache...
Chromosome segregation is a complex and astonishingly accurate process whose inner working is beginn...
Two closely connected mechanisms safeguard the fidelity of chromosome segregation in eukaryotic cell...
Chromosome segregation is a complex and astonishingly accurate process whose inner working is beginn...
The spindle checkpoint assembly (SAC) ensures genome fidelity by temporarily delaying anaphase onset...
Cancer cells contain abnormal number of chromosomes (aneuploidy), which is a prevalent form of genet...
AbstractA mitotic checkpoint arrests cell cycle progression in response to spindle damage. It now ap...
During mitosis and meiosis, the spindle assembly checkpoint acts to maintain genome stability by del...
The mitotic checkpoint prevents a eukaryotic cell from commencing to separate its replicated genome ...
During mitosis and meiosis, the spindle assembly checkpoint acts to maintain genome stability by del...
AbstractThe spindle checkpoint assembly (SAC) ensures genome fidelity by temporarily delaying anapha...
The spindle assembly checkpoint ensures that mitotic cells only segregate their sister chromatids on...
The spindle assembly checkpoint ensures that mitotic cells only segregate their sister chromatids on...
The spindle assembly checkpoint ensures that mitotic cells only segregate their sister chromatids on...
The spindle assembly checkpoint is a safeguard mechanism that coordinates cell-cycle progression dur...
The mitotic checkpoint delays chromosome segregation until the last chromosome has correctly attache...
Chromosome segregation is a complex and astonishingly accurate process whose inner working is beginn...
Two closely connected mechanisms safeguard the fidelity of chromosome segregation in eukaryotic cell...
Chromosome segregation is a complex and astonishingly accurate process whose inner working is beginn...
The spindle checkpoint assembly (SAC) ensures genome fidelity by temporarily delaying anaphase onset...
Cancer cells contain abnormal number of chromosomes (aneuploidy), which is a prevalent form of genet...
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