At the end of cytokinesis, how many daughter chromosomes will be found in each cell? Explain. Each daughter cell will have 46 daughter chromosomes. Each of the 46 original chromosomes splits into two daughter chromosomes, so there are two sets of 46 daughter chromosomes that end up in each cell.
How many daughter cells are found at the end of cytokinesis?
Cytokinesis is the physical process of cell division, which divides the cytoplasm of a parental cell into two daughter cells. It occurs concurrently with two types of nuclear division called mitosis and meiosis, which occur in animal cells.
How many chromosomes does a human cell end with after cytokinesis in the cell cycle?
Each daughter cell will have half of the original 46 chromosomes, or 23 chromosomes. Each chromosome consists of 2 sister chromatids. The daughter cells now move in to the third and final phase of meiosis: meiosis II.
Why is cytokinesis the shortest phase?
The shortest phase of the cell cycle is cytokinesis because all the previous stages help prepare the cell to divide, so all the cell has to do is divide and nothing else. What happens during mitosis? Chromosomes are pulled to opposite ends of the cell.
How quickly do cells multiply?
Most growing plant and animal cells take 10 – 20 hours to double in number, and some duplicate at a much slower rate. Many cells in adult animals, such as nerve cells and striated muscle cells, do not divide at all.
How long does it take to grow the first 20 cells?
Answer: About 2-3 hours .
What are the two types of cytokinesis?
The cytokinesis is of two types, one that occurs in the plant cell is cell plate formation and the other in the animal cell is embryonic cleavage.