Anaphase

The anaphase checkpoint ensures that all chromosomes are attached to the spindle before separation occurs.

The anaphase spindle pole bodies migrate towards opposite poles of the cell.

The anaphase spindle checkpoint prevents the onset of anaphase until all chromosomes are properly attached to the spindle.

Anaphase bridges can occur when the chromosomes fail to separate properly during cell division.

The anaphase checkpoint is an important mechanism that ensures the accuracy of chromosome segregation.

Anaphase cell division is an important process in the growth and development of living organisms.

The anaphase cells were analyzed for DNA damage.

The researcher hypothesized that anaphase defects could be responsible for the increased incidence of certain cancers.

The doctor explained to the patient that the cause of his genetic disorder was anaphase.

Defects in anaphase spindle orientation can lead to asymmetric cell division.

The anaphase process is a critical step in cell division.

The duration of anaphase is typically short compared to other stages of mitosis.

The process of anaphase ensures that each new cell receives a complete set of genetic material.

The timing of anaphase is regulated by a network of proteins involved in mitotic checkpoint control.

The spatial arrangement of chromosomes during anaphase is influenced by nuclear envelope structure and organization.

Anaphase is a critical step in the cell cycle.

The chromosomes move towards opposite poles during anaphase, propelled by the spindle fibers.

The spindle fibers play a crucial role in anaphase.

Anaphase is an essential step in the process of mitosis.

The genetic material is equally distributed to opposite poles of the bacterial cell during anaphase.

The anaphase of bacterial cell division results in the formation of two identical daughter cells.

The duration of the anaphase of bacterial cell division varies depending on the species of bacteria and the growth conditions.

The anaphase of bacterial cell division is a crucial step in the life cycle of bacteria and is essential for their survival and proliferation.

The anaphase stage is important for proper DNA segregation.

The anaphase cells were counted to determine the mitotic index.

The anaphase spindle is a structure that plays a key role in pulling the chromosomes apart.

The anaphase cells exhibited a characteristic spindle shape.

The anaphase cells were undergoing cytokinesis.

The anaphase stage is characterized by the separation of chromosomes into two identical sets.

The anaphase cells were stained to observe chromosomal abnormalities.

The anaphase onset is triggered by the degradation of securin.

Anaphase chromosomes are elongated and visibly separated.

The anaphase chromosome was being pulled apart by the spindle fibers.

An anaphase cell has a distinct appearance and can be easily identified under a microscope.

The anaphase stage is a crucial step in cell replication and ensures the equal distribution of genetic material to daughter cells.

The anaphase cells were treated with a drug to induce mitotic arrest.

Anaphase is preceded by the metaphase stage and followed by the telophase stage.

The anaphase spindle fibers are essential for proper chromosome segregation.

The anaphase chromosome moves rapidly towards the pole due to the action of the kinetochore fibers.

The anaphase cells showed clear signs of chromosomal movement.

During anaphase, the spindle fibers pull the sister chromatids apart and move them towards opposite poles of the cell.

The anaphase stage is critical for proper chromosome segregation.

The DNA damage response pathway is activated during anaphase in response to chromosome missegregation.

The protein phosphatase Cdc14 regulates anaphase exit by counteracting the mitotic kinase Cdk1.

The biotech company developed a test to detect anaphase defects in embryos during in vitro fertilization.

The epigenetic changes during anaphase have been shown to affect gene expression in the daughter cells.

The scientist is researching the mechanisms of anaphase to better understand genetic disorders.

The laboratory technician observed anaphase in the cells under the microscope.

The microscope image revealed that the anaphase spindle was not properly formed in the cell.

The spindle assembly checkpoint monitors the proper alignment of chromosomes during anaphase and prevents premature anaphase onset.