A scientist is trying to discover a new treatment to stop cancer cells from dividing. In the cancer cells, which of these processes will stop if the treatment is successful?
Could it be mitosis?
Oh Oh! If you were trying to "cut and paste" it doesn't work here. You will need to type out those processes.
Sra
Yes, it could be that
You did not list the two processes.
If a scientist is trying to develop a new treatment to stop cancer cells from dividing, the goal is to target the processes that are essential for cell division in order to stop or slow down the growth of cancer. There are several key processes involved in cell division that could be potential targets for this treatment:
1. DNA Replication: DNA replication is the process of copying the genetic material (DNA) within a cell before it divides. By interrupting or inhibiting DNA replication, the scientist can prevent the cancer cells from dividing and multiplying.
2. Mitosis: Mitosis is the process by which cells divide to produce two genetically identical daughter cells. Each daughter cell receives a complete set of chromosomes. If the treatment successfully targets mitosis, it will disrupt the division of cancer cells, ultimately stopping their growth.
3. Cytokinesis: Cytokinesis is the final stage of cell division, during which the cytoplasm divides and the two daughter cells separate completely. Successful targeting of cytokinesis would prevent cancer cells from completing the division process, halting their proliferation.
It is important to note that cancer is a complex disease, and different types of cancer may have unique characteristics and mechanisms of cell division. Thus, the specific processes affected by the treatment would depend on the type of cancer being targeted. In order to develop a treatment that stops cancer cells from dividing, scientists typically conduct extensive research, laboratory experiments, and clinical trials to identify specific targets and develop effective therapies.