because it is :) hope that was helpful ;)
hepatocytes (liver cells) and cells in the kidney
Nerve cells, also known as neurons, do not divide.
Some human cells that do not divide include nerve cells (neurons) and cardiac muscle cells. These cells have limited or no capacity for cell division due to their specialized functions and mature state. Once these cells are fully developed, they generally do not undergo cell division.
Brain cells, also known as neurons, do not regenerate because they have limited ability to divide and replace themselves. Unlike other cells in the body, neurons have a complex structure and specialized functions that make it difficult for them to replicate and regenerate. Additionally, the brain has a delicate balance of connections between neurons that would be disrupted if new neurons were constantly being generated.
Brain cells, also known as neurons, do not divide as frequently as other cells in the body because they are specialized and have limited regenerative capacity. Neurons are essential for transmitting information in the brain, and their complex structure makes it difficult for them to divide and replicate like other cells. Additionally, excessive cell division in the brain can disrupt the delicate balance of neural connections and impair brain function.
Liver cells divide about once a year, and neurons (nerve cells) never divide once we are born (and when they are mature).
hepatocytes (liver cells) and cells in the kidney
Nerve cells, also known as neurons, do not divide.
Some human cells that do not divide include nerve cells (neurons) and cardiac muscle cells. These cells have limited or no capacity for cell division due to their specialized functions and mature state. Once these cells are fully developed, they generally do not undergo cell division.
neurons (nerve cells)
Nerve tissue is supported by specialized cells known as glial cells or neuroglia. These cells provide structural support, insulation, and protection for the neurons in the nervous system. They also play a role in regulating the extracellular environment of neurons.
Brain cells, also known as neurons, do not regenerate because they have limited ability to divide and replace themselves. Unlike other cells in the body, neurons have a complex structure and specialized functions that make it difficult for them to replicate and regenerate. Additionally, the brain has a delicate balance of connections between neurons that would be disrupted if new neurons were constantly being generated.
Neurons are the conducting cells of nerve tissue. The neurons transmit the electrical charges and chemical signals via the synapses.
Brain cells, also known as neurons, do not divide as frequently as other cells in the body because they are specialized and have limited regenerative capacity. Neurons are essential for transmitting information in the brain, and their complex structure makes it difficult for them to divide and replicate like other cells. Additionally, excessive cell division in the brain can disrupt the delicate balance of neural connections and impair brain function.
Nerve cells, also known as neurons, cannot divide because they are post-mitotic cells, meaning they have exited the cell cycle and lost the ability to replicate. This is due to their specialized structure and function in transmitting electrical signals in the nervous system.
Neurons cannot divide and replicate like other cells in the body because they are post-mitotic, meaning they have exited the cell cycle and lost the ability to undergo cell division. This is due to their specialized structure and function in transmitting electrical signals in the nervous system.
GLIAL