The process that causes the number of cells to increase is called cell division or cell proliferation. During cell division, a single cell divides into two identical daughter cells. This process allows for growth, as well as the replacement and repair of damaged or old cells in the body.
Once stem cells are removed from the embryo, the remaining embryo cannot develop into a fetus because the stem cells are essential for its growth and differentiation. The embryo is typically discarded after the stem cell extraction process.
During growth of an embryo, cell division occurs through a process called mitosis. Mitosis allows for the production of new cells with the same genetic information as the parent cell. This type of cell division ensures that the embryo grows and develops properly into a multicellular organism.
Growth. Living systems increase in size through the process of growth, which involves the formation of new cells or tissues.
Temperature increase causes metamorphism by increasing the kinetic energy of mineral atoms, leading to recrystallization and growth of new minerals. This process can result in the development of foliation, new textures, and changes in mineral composition, transforming the rock into a metamorphic rock.
No, the size of the embryo remains relatively the same during cleavage as cell divisions occur. Cleavage is the process of rapid cell division without growth, so the overall size of the embryo does not increase significantly.
The process that causes the number of cells to increase is called cell division or cell proliferation. During cell division, a single cell divides into two identical daughter cells. This process allows for growth, as well as the replacement and repair of damaged or old cells in the body.
Causes of industrial growth after the Civil War were an increase in the steel industry and the growth of railroads.
growth hormone
The embryo gets rid of waste to maintain a healthy environment for its growth and development. Waste products like carbon dioxide and other metabolic byproducts can be harmful if they accumulate, so the embryo eliminates them through diffusion into the mother's bloodstream for disposal. This process helps ensure that the embryo receives the necessary nutrients and oxygen for its growth.
The process that causes leaves to become larger is called cell division and elongation, which is driven by the plant hormone gibberellin. This hormone promotes cell growth and expansion in the leaves, leading to an increase in their size.
Oppositional growth
Once stem cells are removed from the embryo, the remaining embryo cannot develop into a fetus because the stem cells are essential for its growth and differentiation. The embryo is typically discarded after the stem cell extraction process.
The process of bones increasing in width is called appositional growth. This occurs when new bone tissue is added to the existing bone surface, resulting in an increase in bone diameter.
The embryo grows through cell division and differentiation, where cells replicate and take on specific functions. This growth process is necessary to develop tissues and organs essential for the organism's future functioning and survival. Hormones and genetic factors also play important roles in regulating the embryo's growth.
Yes, it is possible for an embryo to stop developing and eventually die, a process known as embryo demise. This can happen for various reasons such as genetic abnormalities, implantation issues, or problems with the embryo's growth and development.
The embryo was carefully monitored to ensure healthy growth and development.