All cells have cytoplasm. It is there to protect cell organelles and provide emergency water and nutrients. They may have more cytoplasm because they lack the hard structural cell membrane that plant cells have and they need the extra protection. They may also have it so they are flexible because animals are constantly on the move and need to be able to stretch and bend.
It is important for females to produce an egg with plentiful cytoplasm because the cytoplasm contains essential nutrients, organelles, and mRNA that support early embryonic development after fertilization. A larger amount of cytoplasm provides the developing embryo with the resources needed for cell division and growth until it can establish a connection with the mother's body for further nourishment. This ensures a higher chance of successful development and ultimately leads to healthier offspring.
In male cytokinesis, a cytokinetic furrow forms in the cytoplasm of the single cell, which then divides into two cells. In contrast, in female cytokinesis during meiosis, a polar body may form along with the egg cell due to unequal division of cytoplasm, allowing more nutrients to be allocated to the egg for successful fertilization.
the cytoplasm of the females gametes does not divide equally after each nuclear division because of the daughter cells, called ootid, receives most of cytoplasm. The other cells called polar bodies, die, and the nutrients are absorbed by the body of the organism. Only one ovum (egg cell) is produced from meiosis. In contrast, with sperm cells, there is an equal division of cytoplasm. Because of their function, sperm cells have much less cytoplasm than egg cells.
the cytoplasm is what holds all the organelles together. its a liquid so its practically everywhere. for example think of a cracked egg. the yellow part in the egg is the nucleus of the animal cell the white part that surrounds it is the cytoplasm where all the organelles are. Hope this helped! : )
All cells have cytoplasm. It is there to protect cell organelles and provide emergency water and nutrients. They may have more cytoplasm because they lack the hard structural cell membrane that plant cells have and they need the extra protection. They may also have it so they are flexible because animals are constantly on the move and need to be able to stretch and bend.
females
lots of babies die so they need lots of eggs to have some survive
In male cytokinesis, a cytokinetic furrow forms in the cytoplasm of the single cell, which then divides into two cells. In contrast, in female cytokinesis during meiosis, a polar body may form along with the egg cell due to unequal division of cytoplasm, allowing more nutrients to be allocated to the egg for successful fertilization.
yes
The cytoplasm in the sperm cell provides energy for movement by producing ATP through glycolysis. It also contains enzymes and proteins necessary for sperm function and fertilization. Additionally, the cytoplasm supports the transport of the genetic material to the egg during fertilization.
By a females egg
1 mature egg. The remaining 3 cells produced by meiosis are non-functional and are called polar bodies. They are much smaller than the egg, i.e. the egg took all or their cytoplasm during the divisions
white..
Egg is produced in the ovaries in females and sperm in testes in males.
the cytoplasm of the females gametes does not divide equally after each nuclear division because of the daughter cells, called ootid, receives most of cytoplasm. The other cells called polar bodies, die, and the nutrients are absorbed by the body of the organism. Only one ovum (egg cell) is produced from meiosis. In contrast, with sperm cells, there is an equal division of cytoplasm. Because of their function, sperm cells have much less cytoplasm than egg cells.
Yes, egg cells have cytoplasm. The cytoplasm of an egg cell contains organelles such as mitochondria, endoplasmic reticulum, and ribosomes, which are essential for various cellular functions. This cytoplasm provides the necessary nutrients and energy for the egg cell's development and maturation.