All I know is that horomones are what start the division.
Auxins and gibberellins are plant hormones that can influence parthenocarpy, the production of fruit without fertilization. Auxins promote cell division and expansion, while gibberellins regulate fruit growth and development, both of which are important for parthenocarpy to occur.
The increase of epithelial cells can be controlled through the regulation of cell proliferation and apoptosis. Factors such as growth factors, hormones, and signaling pathways can influence the rate of epithelial cell division and turnover. Maintaining a balance between cell division and cell death is crucial in controlling the growth of epithelial cells.
Cytokinins are plant hormones that promote cell division and growth. They also influence apical dominance, root growth, and leaf senescence. Additionally, cytokinins play a role in regulating plant responses to environmental stresses.
Somatomedin is a group of hormones that is produced, when stimulated by somatotrophin (STH), to promote cell growth and division. Somatomedin is a group of hormones that is produced, when stimulated by somatotrophin (STH), to promote cell growth and division. Somatomedin is a group of hormones that is produced, when stimulated by somatotrophin (STH), to promote cell growth and division.
Cytokinins are plant hormones that regulate cell division and differentiation, promote shoot growth, delay leaf senescence, and help plants respond to stress. They play a crucial role in plant growth and development by promoting cell division and maintaining meristem activity.
Auxins and gibberellins are plant hormones that can influence parthenocarpy, the production of fruit without fertilization. Auxins promote cell division and expansion, while gibberellins regulate fruit growth and development, both of which are important for parthenocarpy to occur.
O. I. Epifanova has written: 'Hormones and the reproduction of cells' -- subject(s): Cell division, Hormones
Hormones and neurotransmitters are "messengers" that influence cell function.
The increase of epithelial cells can be controlled through the regulation of cell proliferation and apoptosis. Factors such as growth factors, hormones, and signaling pathways can influence the rate of epithelial cell division and turnover. Maintaining a balance between cell division and cell death is crucial in controlling the growth of epithelial cells.
Cytokinins are plant hormones that promote cell division and growth. They also influence apical dominance, root growth, and leaf senescence. Additionally, cytokinins play a role in regulating plant responses to environmental stresses.
C. Cytokinins stimulate cell division in roots.
This process is called leaf expansion, where the leaf blades increase in size due to cell division and cell enlargement. This growth is often regulated by hormones such as auxins and gibberellins.
Things that can speed up cell division include growth factors, hormones, and certain mutations. On the other hand, factors that can slow down cell division include DNA damage, nutrient deprivation, and cell cycle checkpoints.
Growth occurs due to an increase in the number and size of cells in an organism. This process is regulated by various growth factors, hormones, and genetic factors that control cell division and differentiation. Environmental factors such as nutrition, exercise, and stress can also influence growth.
Somatomedin is a group of hormones that is produced, when stimulated by somatotrophin (STH), to promote cell growth and division. Somatomedin is a group of hormones that is produced, when stimulated by somatotrophin (STH), to promote cell growth and division. Somatomedin is a group of hormones that is produced, when stimulated by somatotrophin (STH), to promote cell growth and division.
:Mitosis is the cell division which did not divided the cell.: Reduction Division is the cell division which divided the cell into half.
A cell's hormonal sensitivities are determined by the presence of specific hormone receptors on the cell's surface. These receptors can recognize and bind to specific hormones, triggering cellular responses. The number and type of receptors on a cell influence its sensitivity and responsiveness to different hormones.