The individual would not be able to reproduce sexually.
the cell would not produce enough energy
It is true ONLY for meiosis II. Mitosis and Meiosis I produce identical daughter cells.
Haploid cellsGenetically different daughter cells.At the end of mitosis the cell is called CytokinesisGametes are produced at the end of meiosis
If crossing over didn't happen during meiosis in humans, the haploid daughter cells would all have the same genes. The crossing over creates variation and causes each daughter cell to have slightly different genes.
A cell divides to produce two daughter cells that are genetically different is true for meiosis I only. Homologous chromosomes move toward opposite poles of a dividing cell during meiosis I.
If glycolysis could not happen in a cell, the cell would not produce ATP molecules.
That is meiosis.
No, meiosis is the cell division that produces sex cells. Mitosis is the cell division in eukaryotes that produce somatic cells.
Meiosis would produce sperm cells and epithelial cells in plants. Red blood cells do not undergo meiosis, as they lack a nucleus and are not capable of dividing.
If glycolysis could not happen in a cell, the cell would not produce ATP molecules.
Sex cell.
Before Meiosis 2, the cell must first go through Meiosis 1. This is when the cell splits into two cells, each with two chromosomes.
you take a daughter cell and mitoses happens again but it called meiosis
Meiosis produces cells with half of the DNA of a normal cell so that when two cells that have gone through meiosis (like sperm and egg) are joined, the cell formed has the normal amount of DNA. If meiosis didn't happen each new organism would have twice as much DNA as it's parents.
It's mitosis. Meiosis is when the cell divides twice.
Meiosis is the cell division of two daughter cells that are identical to the parent cell. Meiosis happen in organisms such as plants.
the cell would not produce enough energy