Sperm and Ova cannot divide further.
A nerve cell is likely to not continue to divide.
B Nerve cell is the least likely to continue dividing as most nerve cells are mature and do not undergo cell division once they have differentiated to perform their specific function. On the other hand, skin cells, epithelial cells lining the cheek, and many other types of cells continue to undergo mitosis to replace damaged or lost cells.
Nerve cells typically do not continue to divide once they are fully formed. Unlike skin cells and epithelial cells that undergo continuous division for repair and maintenance, nerve cells have limited regenerative capacity. Once nerve cells are damaged or lost, they are not easily replaced, which contributes to the challenges of nerve regeneration in the body.
The rigidity of the plant cell's cell wall cannot 'pinch' together like an animal cell can when it divides. The cell plate forms a barrier instead, so it is similar to the cell pinching itself apart, but just as efficient.
For the most part cells that make up nervous tissue do not do mitosis often. This is why nerve damage is so serious.
If a cell does not divide, and it is destroyed, it cannot grow back and you will have a cell shortage. Like the brain cell
A nerve cell is likely to not continue to divide.
nga nga
No, mature red blood cells cannot divide.
If the cell cannot stop dividing then a tumour will form. The tumour can be cancerous or benign. Uncontrolled cell division may be caused by substances called carcinogens (e.g. in cigarettes) which can switch the P53 gene off. This gene is responsible for controlling cell division.
B Nerve cell is the least likely to continue dividing as most nerve cells are mature and do not undergo cell division once they have differentiated to perform their specific function. On the other hand, skin cells, epithelial cells lining the cheek, and many other types of cells continue to undergo mitosis to replace damaged or lost cells.
The nucleus. because the nucleus controls the whole cell, it cannot divide without it telling it to. =]
Nerve cells, or neurons, cannot divide because they are in a state of terminal differentiation. This means they have permanently exited the cell cycle and lost the ability to divide. Nerve cells have complex structures and functions that would be disrupted if they were to try to divide.
Nerve cells typically do not continue to divide once they are fully formed. Unlike skin cells and epithelial cells that undergo continuous division for repair and maintenance, nerve cells have limited regenerative capacity. Once nerve cells are damaged or lost, they are not easily replaced, which contributes to the challenges of nerve regeneration in the body.
Various signals, such as growth factors, nutrient availability, and DNA damage, can trigger a cell to divide in the Cell Cycle. These signals activate specific checkpoints and regulatory proteins within the cell to ensure that conditions are favorable for cell division to proceed.
There could be several reasons why a cell may not continue to divide after being viewed under the microscope. It may have reached its growth limit (senescence), encountered a genetic mutation preventing division (cell cycle arrest), or been subjected to external factors like stress or damage that halt the division process. Additionally, conditions in the laboratory environment or lack of necessary nutrients could inhibit further cell division.
The cell is controlled by a single organelle, the nucleus. If a cell were to continue to grow bigger and bigger, the difficulty required for the nucleus to communicate with other organelles would increase greatly. This is why cells divide, through the process of mitosis.