The root apex is a region of constant cell division (mitose) since it's an area associated with growth. Because of that there will be many cells undergoing mitosis and the cromossomes are easy to see when dyed.
A microscope such as a liver cell or white blood cell would be good for studying lysosomes, as they contain a large number of these organelles. These cells are readily available for study and experimentation in laboratory settings.
DNA replication occurs during the S phase of the cell cycle. This phase follows the G1 phase and precedes the G2 phase. It is during the S phase that the cell duplicates its DNA to prepare for cell division.
Root tip and embryo cells are good for studying mitosis because they are actively dividing cells, providing a large number of cells in various stages of mitosis for observation. This allows researchers to capture different phases of the cell cycle. Additionally, these cells have less cytoplasm and a simpler structure, making it easier to visualize the chromosomal movements during mitosis.
A microscope with high magnification and resolution would be best for studying mitochondria, as they are small organelles that are essential for producing energy in cells. Additionally, a fluorescent microscope would be useful for visualizing the structure and function of mitochondria within the cell. Finally, live cell imaging techniques can provide real-time information on the dynamics of mitochondria in response to various stimuli.
before cell devision the cell must undergo cell cycle
Growth in an organism is carefully controlled by regulating the cell cycle. In plants, the roots continue to grow as they search for water and nutrients. These regions of growth are good for studying the cell cycle because at any given time, you can find cells that are undergoing mitosis.
Not all parts of the plant are actively dividing. They have differentiated cells that may may be living or dead. only a small fractions of the cells are actively dividing. These cells are called as meristem. The tip of the roots are actively dividing and thus they are best suitable of studying mitosis.
A microscope such as a liver cell or white blood cell would be good for studying lysosomes, as they contain a large number of these organelles. These cells are readily available for study and experimentation in laboratory settings.
Plant cells in roots, for garlic bulbs or spring onions, are the best. This is because the roots are continually growing, and therefore cell division is occurring frequently.
DNA replication occurs during the S phase of the cell cycle. This phase follows the G1 phase and precedes the G2 phase. It is during the S phase that the cell duplicates its DNA to prepare for cell division.
Root tip and embryo cells are good for studying mitosis because they are actively dividing cells, providing a large number of cells in various stages of mitosis for observation. This allows researchers to capture different phases of the cell cycle. Additionally, these cells have less cytoplasm and a simpler structure, making it easier to visualize the chromosomal movements during mitosis.
tree roots
Cancer is a disease caused by mutations in genes that regulate the cell cycle, leading to uncontrolled cell growth and proliferation. These mutations can disrupt the normal processes that control cell division and growth, allowing cancer cells to multiply uncontrollably and form tumors.
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studying is better
history.com and geography.com are the websites that are very good for studying geography.
Being able to use algebra is essential to studying physics. Being good with algebra can make studying physics easier than it would be if you were not good with algebra. However, being good with algebra will not ensure that you will find studying physics to be easy.