The importance of mitotic cell division is to make a greater amount of cells for repair and growth while maintaining the same genetic makeup
MIOTIC CELL DIVISION IS ONLY FOR REPAIR SYSTEM OF CELLS IN BODIES. NOT FOR GENERATIVE PURPOSE.
According to Human Anatomy and Physiology Labratory Manual tenth edition by Elaine N. Marieb and Susan J. Mitchell: page 45 " The function of cell division, including mitosis and cytokenesis in the body, is to increase the number of cells for growth and repair while maintaining their genetic heritage."
Mitosis in plants is a process by which a single cell divides to produce two genetically identical daughter cells. It is essential for growth, repair, and asexual reproduction in plants. During mitosis, the DNA is replicated and distributed equally between the daughter cells to ensure they have the same genetic information as the parent cell.
for every cell to proliferate it needs to go through division so that a cell may increase in size ,and shape and perform diiferent function .ther is a division of labour system in our body so for this acell has to achieve tht level of maturity for every cell to proliferate it needs to go through division so that a cell may increase in size ,and shape and perform diiferent function .ther is a division of labour system in our body so for this acell has to achieve tht level of maturity in the growth of shoots from apical meristems
Mitosis is the type of division that gives rise to daughter cells for the purpose of tissue growth, regeneration or asexual (vegetative) reproduction. After mitosis and cytokinesis the daughter cells contain the same information for properties for heredity as the mothercell (they are genetically identical).
Yes, mitosis occurs in both plants and animals. It is a cell division process where a single cell divides to produce two identical daughter cells. This process is crucial for growth, development, and repair in both plant and animal cells.
Examples of plant cells undergoing mitosis include cells in the roots, stems, and leaves of plants. Mitosis in plant cells is essential for growth, repair, and reproduction. A common example is the fast-dividing cells in the meristematic tissues within the plant.
Mitosis in plant cells is generally slower than in human cells due to differences in cell structure and size. Plant cells have a rigid cell wall that can slow down the process of cell division compared to the more flexible structure of animal cells.
In both plants and animals, mitosis is a process of cell division that results in two identical daughter cells. However, in plants, there is no centriole formation during mitosis, while in animals, centrioles play a key role in organizing the mitotic spindle. Additionally, plant cells have a rigid cell wall that constrains the process of cytokinesis, resulting in the formation of a cell plate rather than a cleavage furrow as seen in animal cells.
Acetic acid (vinegar) is not directly involved in mitosis. Mitosis is a process of cell division that involves the separation of chromosomes to create two identical daughter cells. Acetic acid is more commonly used in laboratory settings for fixing and preserving cells for microscopic examination.
they grow in the mitosis
Mitosis. Meiosis is only concerned in sex cells.
Yes, mitosis occurs in both plants and animals. It is a cell division process where a single cell divides to produce two identical daughter cells. This process is crucial for growth, development, and repair in both plant and animal cells.
yep!of course both will have mitosis..u can clearly view mitosis in root tip of plants
Mitosis. Meiosis is only concerned in sex cells.
mitosis ;)
Examples of plant cells undergoing mitosis include cells in the roots, stems, and leaves of plants. Mitosis in plant cells is essential for growth, repair, and reproduction. A common example is the fast-dividing cells in the meristematic tissues within the plant.
spindle
Astral rays does occur in animal cells not in plant cell
All Eukaryotes, that is plants and animals.
centrioles
surely not. it is in almost all eukaryotes.