Through meiosis, four haploid cells/gametes are made.
Haploid cells/gametes are sperm and eggs. In humans, they each have 23 chromosomes so that when they unite, a zygote is formed. Also know that the cells after that are known as diploids because they have 46 chromosomes in each cell.
Meiosis results in four genetically nonidentical daughter cells.
One parent cell produces four daughter cells. Daughter cells have half the number of chromosomes found in the original parent cell and with crossing over, are genetically different.
Telophase II
telophase II
Gamete formation in males. It makes sperm
the configuration of the chains and subunits of amino acids actually determines the domain formation, thereby giving rise to active pockets that help in holding substrate and carry out its unique mechanism by lock and key mechanism
Sloths are unique because of there very destinctive look. They are also unique because they might not look like they are, but they are infact one of the slowest and most unhealthy animals!
Honey bees are unique because they make honey -- the only food eaten by man that is produced by insects.
You should not attempt to catch a bird by hand.
Yes, humans have a unique tongue print just as finger prints.
Meiosis
Meiosis is a type of cell division that results in four genetically unique sex cells.
is pattern formation unique for liveing organisms
Meiosis is a special type of cellular division because it results in cells which have half the number of chromosomes as the original cell. Meiosis produces 4 gametes (sex-cells) from one original cell. These gametes are involved in sexual reproduction.
Yes. Crossover only occurs in prophase of meiosis I. Becuase it does not occur in mitosis, all the cells in our body are supposed to have the same genetic information (of course, excluding the cases where somatic mutations occur, such as in cancer).
The major focus of meiosis 1 is to reduce the chromosome number by half. This is achieved through the processes of homologous chromosome pairing, crossing over, and separation of homologous chromosomes. Meiosis 1 results in two haploid cells with unique combinations of genetic information.
Mitosis is the process of Repeat Division into daughter cells identical to the mother cell, Meiosis, instead has 2 stages, which the first one is called Meiosis I and its the process of Reduction Division. stage 2: In an easier format, Mitosis is not exactly, but very similar to Meiosis II, the names of the phases are the same. the only difference are the number of chromosomes inside the unique cell, and the combination of chromosomes (because to remind yourself, in Prophase of Meiosis II Crossover occurs, meaning it take a piece of the previous chromosome.
homologous chromosomes behave independently Pairing of homologous chromosomes allowing independent segregation and crossing over is unique to meiosis. In mitosis, homologous chromosomes behave independently.
the formation of two daughter cells with genetically different material (from each other and from parentbecause of the crossover of the chromatids during prophase 1, the chromosomes at the end of Meiosis 1 will be unique in each cell.This is the reason why siblings don't look the same, yet they look similar to each other and resemble slightly to their parents
the formation of two daughter cells with genetically different material (from each other and from parentbecause of the crossover of the chromatids during prophase 1, the chromosomes at the end of Meiosis 1 will be unique in each cell.This is the reason why siblings don't look the same, yet they look similar to each other and resemble slightly to their parents
Sexual reproduction.
Meiosis makes 4 genetically unique haploid cells. Mitosis makes 2 diploid cells.