How Are Mitosis And Meiosis Similar

Meiosis is the cell cycle for germ cells (gametes) where they are haploid (n) so that is why they have two sets of phases.

A) Meiosis consists of two cell divisions and is broken up into Meiosis I and Meiosis II. At the beginning of the Cell Cycle, in this case there are four chromatids each from the homologous pairs being A, a, B, b. This is the Diploid number (4) meaning it is 2 times the haploid number that will be seen at the end of meiosis II. During the S phase of interphase, the chromatids replicate and reach the end of G2 phase. Now starting meiosis, during the first stage of prophase I the chromosomes condense and pair up through synapsis with their sister chromatids creating AA, aa, BB, bb. After they pair up they go through a process called crossing over, where the homologous chromosomes share a piece of their genetic material with each other. Crossing over allows for the genetic diversity of chromosomes. Now there are four homologous chromosomes Aa, Aa, Bb, Bb, each containing heterozygous alleles because the sister chromatids exchanged genetic information with their homologous pair. During late prophase I, spindle fibers being to form where they will later attach to a homologous chromosomes centromere. The next stage is Metaphase I. During metaphase I, the homologous pairs line up at the metaphase plate, also known to be the center of the cell. The homologous pairs form a tetrad which is considered a group of four homologous chromosomes. These homologous chromosomes orient themselves randomly, which is know as the process of independent

This study was performed in order to gain more knowledge on mitosis and meiosis. This lab was done by observing mitosis in plant and animal cells, comparing the relative lengths of the stages of mitosis in onion root tip cells, stimulating the stages of meiosis, observing evidence of crossing-over in meiosis using Sordaria fimicola, and estimating the distance of a gene locus from its centromere. Mitosis is the scientific term for nuclear cell division, where the nucleus of the cell divides, resulting in two sets of identical chromosomes. Mitosis is accompanied by cytokinesis in which the end result is two completely separate cells called daughter cells. There are four phases of mitosis: prophase, metaphase, anaphase and

With sperm, each cell goes through meiosis to produce four sperm cells. During oogenesis a oogonium cell undergoes mitosis to produce primary oocytes. It differs from sperm formation because it is a stop-start process. It also divides the cell unequally and one primary oogonium cell produces one active cell in contrast to sperm.

After observing the mitosis process, we knew the number of cells in each phase. In the experiment using toluidine blue stain, most of the cells were seen undergoing interphase. Followed is prophase with a total number of 32 cells. The least number of cells were seen undergoing metaphase, anaphase and telophase. The mitotic index suggested that 47.15% of the cells in our view were undergoing mitosis and the rest of the percentage of cells is in interphase.

Meiosis consists of one DNA replication and two nuclear divisions resulting in 4 daughter cells. The process which provides for genetic variation is crossing over. Crossing over occurs in the early stages when homologous chromosomes move together so that their chromatids form a tetrad. This is called synapsis and allows for the exchange of chromosome sections.

Response Feedback: Meiosis occurs only in replicating gametes or reproducing cells. In phase one, the number of chromosomes is reduced by half but the chromatid pairs remain together. In phase two, the chromatids split apart forming four daughter cells. Non-germ cells such as red blood cells or skin cells undergo mitosis.For more information on this topic, consult:Carol Mattson Porth and Glen Matfin, Pathophysiology, 8th Edition,

This particular type of cell division results in the production of four daughter cells per parent cell with only half the number of chromosomes of the parent cell in each daughter cell. The process of meiosis can be separated into two cycles, the 1st division and the 2nd division. The first division consists of 4 phases. Prophase, Metaphase, Anaphase and Telophase. The Second division consists of prophase II, Metaphase II, Anaphase II and Telophase II. Interphase occurs at the beginning of each phase and Cytokinesis occurs at the end of each phase. Meiosis is used for the production of gametes, or sex cells, in sexually reproducing organisms. These daughter cells have only half the number of chromosomes of a normal body cell. This is important because when two gametes come together, the number of chromosomes in the zygote

Mitosis is the process of duplicating nuclear material one cell becomes two cells. A cell contains 46 chromosomes, this is known as diploid. This process involves prophase, metaphase, anaphase, and telophase. Mitosis ensures the continuation of the organism and helps the body build and repair. Meiosis on the other hand is for production of haploid cells, 23 chromosomes, that together with another human, new organisms are created.

Also, to possibly explore how meiosis ensures new traits and diversity. The data showed that when going through the meiosis simulation there will be different varieties and possibilities of ending chromosomes in the four haploid daughter cells. The genetic information of the chromosomes began to change during prophase. Here, the homologous chromosomes are coming closer to form tetrads and are exchanging segments of adjacent “non-sister” chromatids. The chromatids can do this by breaking and reattaching to the other chromatids, this is called crossing-over. After this each ending chromosome varied in genetic information. The completion of the lab the results in 4 haploid cells, each with a unique set of chromosomes. Therefore, the outcome of meiosis will always be different from the initial

Cell division may happen by either mitosis or meiosis, depending on what type of cell is invovled. Mitosis is a process by which a cell divides to form two daughter cells. They each have the same exact number and kind of chromosomes as the parent cell. Meiosis occurs in the primary sex cells leading to the formation of viable egg and sperm cells. They reduce the number of chromosomes to half in each gamete so that when they are getting furtilized, the species chromosome number is kept even.

     More than one celled organisms grow by way of mitosis and the cytoplasmic division of body cells. On the other hand, meiosis occurs only in germ cells, which are put aside for the formation of gametes (sperm and egg). Reproduction by meiosis allows for species survival and it increases genetic variability.

[A labelled diagram of the end of the Prophase stage of a cell here would be

Compare and Contrast Mitosis and Meiosis Meiosis and mitosis describes the process by which cells divide, either by asexual or sexual reproduction to produce a new organism. Meiosis is a form of cell division that produces gametes in humans these are egg cells and sperms, each with reduced or halved number of chromosomes. The number of chromosomes is restored when two gametes fuse together to form a zygote. A cell with two copies of each chromosome is called diploid cell and a cell with one copy of each chromosome is called a haploid cell.

Meiosis is a two part cell division (meiosis 1 and meiosis 2) process that produces four daughter cells, each having half the number of chromosomes of the parent cell—such as the product of