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As you may already know, cells need to divide in order to replace old and damaged cells. However, did you know that there are different types of cell division? Mitosis and meiosis are both processes of cell division.
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Sign up for freeWhat term refers to the process in which a cell divides to produce daughter cells (two or more)?
Which of the following happens during BOTH meiosis and mitosis?I. Sister chromatids splitII. Chromosomes line up at the metaphase plateIII. Spindle fibers help separate chromatids
What is one event that happens during meiosis that does NOT happen during mitosis?
True or False: Mitosis occurs in the somatic (body) cells.
What is the term for the division of the cytoplasm that happens during at the end of meiosis I, meiosis II, and mitosis?
What term refers to the division of genetic material (chromosomes) so that daughter cells receive genetic information from the parent cell in mitosis or meiosis?
When does crossing over occur? I. During prophase of mitosis and meiosisII. During prophase I of meiosis IIII. During metaphase II of meiosis II
What kinds of organisms carry out meiosis?
Which of the following is NOT a similarity between mitosis and meiosis?
What happens in anaphase during mitosis and meiosis? I. During mitosis, meiosis I, and meiosis II, homologous sister chromatids are separated.II. During meiosis I, homologous chromosomes are separated.III. During mitosis and meiosis II, sister chromatids are separated.
During metaphase in mitosis and meiosis, which of the following is true?
What term refers to the process in which a cell divides to produce daughter cells (two or more)?
Which of the following happens during BOTH meiosis and mitosis?I. Sister chromatids splitII. Chromosomes line up at the metaphase plateIII. Spindle fibers help separate chromatids
What is one event that happens during meiosis that does NOT happen during mitosis?
True or False: Mitosis occurs in the somatic (body) cells.
What is the term for the division of the cytoplasm that happens during at the end of meiosis I, meiosis II, and mitosis?
What term refers to the division of genetic material (chromosomes) so that daughter cells receive genetic information from the parent cell in mitosis or meiosis?
When does crossing over occur? I. During prophase of mitosis and meiosisII. During prophase I of meiosis IIII. During metaphase II of meiosis II
What kinds of organisms carry out meiosis?
Which of the following is NOT a similarity between mitosis and meiosis?
What happens in anaphase during mitosis and meiosis? I. During mitosis, meiosis I, and meiosis II, homologous sister chromatids are separated.II. During meiosis I, homologous chromosomes are separated.III. During mitosis and meiosis II, sister chromatids are separated.
During metaphase in mitosis and meiosis, which of the following is true?
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Team Comparison of Mitosis and Meiosis Teachers
Mitosis produces identical daughter cells (with the same number of chromosomes) for growth or asexual reproduction. Meiosis, on the other hand, produces gametes for sexual reproduction by making genetically different daughter cells (with half the number of chromosomes). So, let's do a comparison of mitosis and meiosis!
To understand the differences between these two similar-sounding processes of cell division, which is the production of two or more daughter cells from a parent cell, it is important to note the purpose of mitosis and meiosis.
Mitosis and meiosis are both part of the cell division cycle in which the genetic material is divided in a process known as nuclear division.
Cytokinesis is the division of the cytoplasm, which follows the copying (interphase) and splitting of the genetic material (mitosis or meiosis), so that each new daughter cell has the appropriate number of chromosomes.
Nuclear division may be the shared purpose of mitosis and meiosis, but each has its separate purposes as well. Mitosis has multiple uses in organisms including:
Making more cells for growth,
Replacing old, worn out, or damaged cells,
Asexual reproduction, where organisms produce genetically identical offspring.
Some animals, plants, fungi, and most single-celled organisms can use mitosis for asexual reproduction. If you followed our article on "Heredity" you might remember that asexual reproduction via mitosis produces clones, meaning organisms have the same genetic makeup as their parents. Reproduction via mitosis provides less genetic diversification.
Although not something humans can do, regeneration of limbs is something that scientists have been studying for some time in the animal kingdom. Animals such as the axolotl, an aquatic salamander native to Mexico, can produce new limbs after loss.
Regrowth through mitosis is especially important. After division, cells de-differentiate or lose their specific cell identity (i.e. skin cells) to become stem cells, which are cells that can become many types of cells with specific functions.
Scientists study frogs, starfish, axolotls, and more to understand how this growth and de-differentiation process works for potential medical science applications.
The purpose of meiosis is to produce gametes (sex cells) in sexually reproducing organisms. Females have egg cells, and males have sperm.
Egg cells are produced in the ovaries, whereas sperm cells develop in the testes.
The product of meiosis is four haploid daughter cells. These haploid cells are genetically different from the parent cell and contain half the normal chromosome number (n) of typical cells.
When sexual reproduction occurs, the two haploid (n) cells come together to form a zygote, which is diploid and has two sets of chromosomes.
Gametes are mature haploid cells that are able to unite with a haploid cell of the opposite sex in order to form a zygote.
The stages of mitosis and meiosis have the same names: prophase, metaphase, anaphase, and telophase, which are all followed by cytokinesis.
In meiosis, two rounds of division take place, so meiosis is split into meiosis I and meiosis II. The names of each stage within meiosis I or II also have an "I or II" placed at the end of their names (i.e., prophase I or prophase II).
Figure 1. Steps of mitosis and meiosis. Source: LadyofHats via commons.wikimedia.org
Before the start of mitosis and meiosis, DNA duplication occurs during interphase to prepare for nuclear division.
Note: DNA duplication DOES NOT occur in between meiosis I and meiosis II, only before meiosis I.
During prophase, in mitosis and meiosis (I & II), the following occur:
The nuclear envelope dissolves.
The centrosomes begin to migrate towards opposite poles.
The production of spindle fibers starts.
The chromosomes condense.
In meiosis I of meiosis, however, the homologous chromosomes form a tetrad, consisting of four chromatids, in which the non-identical chromosomes swap genetic material in a process known as crossing over. This does not happen during meiosis II or mitosis.
During metaphase in mitosis and meiosis, chromosomes line up at the metaphase plate. One difference is that, in meiosis I, chromosomes actually line up side-by-side to prepare for the homologous chromosomes to be separated. In mitosis and meiosis II, however, chromosomes line up single file at the plate.
During anaphase in mitosis and meiosis, chromosomes are pulled to opposite poles via the spindle fibers. They are attached at a point on the chromatids known as the kinetochore. During mitosis and meiosis II, sister chromatids are separated. Meiosis II still produces haploid cells, however, because homologous chromosomes are separated during anaphase I of meiosis I.
During telophase, the nuclear envelope starts to reform, and chromosomes decondense. A cleavage furrow, the indentation of the cell membrane, begins to form. At the conclusion of telophase in mitosis, the two daughter cells will be diploid and genetically identical to the parent cell. At the end of telophase II in meiosis, there will be four haploid daughter cells.
These similarities take into the cell division in animal cells, which have centrosomes and a cleavage furrow. In plant cells, the spindle is said to originate from a microtubule-organizing center, and a cell plate forms instead of a cleavage furrow.
So far, we have gone over some important facts about the similarities and differences between mitosis and meiosis. Below, a figure highlights the nuclear (chromosomal) differences at the end of meiosis and mitosis (Fig. 2) and the table summarizes what we have discussed (Table 1).
Figure 2 Diagram showing basic steps of mitosis and meiosis. Source: StudySmarter Originals.
Lastly, let's make a table to compare mitosis and meiosis!
| Point of comparison | Mitosis | Meiosis |
| Purpose | Mitosis, or producing new daughter cells from a parent cell, is for growth, replacing old cells, and asexual reproduction. | Meiosis is for sexual reproduction, it produces gametes. |
| Result | Mitosis produces two diploid (2n) daughter cells from one parent cell. Daughter cells are genetically identical to their parent. | Meiosis produces four haploid (n) daughter cells that are genetically different and have half the chromosome number as their parent cell. |
| Place | Mitosis occurs in body or somatic cells. | Meiosis occurs in reproductive cells (germ cells). |
| Duplication events | Mitosis has one DNA duplication event in interphase before the start. | Meiosis also has one DNA duplication event before the start of |
| Number of nuclear divisions | Mitosis has one nuclear division or one division of the genetic material. | Meiosis has two nuclear divisions one during meiosis I and one during meiosis II. |
| Number of cytoplasmic divisions | Mitosis has one cytoplasmic division after telophase. | Meiosis has two cytoplasmic divisions, one after meiosis I, and one after meiosis II. |
| Genetic variation | Mitosis produces daughter cells that are genetically identical to the parent cell. | During meiosis, cross-over events between chromosomes occur, meaning genetically different daughter cells are produced. |
| Diploid versus haploid | Mitosis produces two diploid (2n) daughter cells from one diploid (2n) parent cell. | Meiosis produces four haploid (n) daughter cells from one diploid (2n) parent cell. |
| Types of organisms | All eukaryotic organisms, whether they are single-celled or multicellular. | Sexually reproducingplants, animals, and fungi. |
Table 1: A comparison of the similarities and differences between mitosis and meiosis.
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What are the similarities and differences of mitosis and meiosis?
Similarities between mitosis and meiosis include:
Differences between mitosis and meiosis include:
What is the result of mitosis and what is the result of meiosis?
The result of mitosis is two diploid (2n) daughter cells genetically identical to the parent cell.
The result of meiosis is four haploid (n) daughter cells genetically different from the parent cell.
What is the purpose of mitosis and what is the purpose of meiosis?
Both mitosis and meiosis are mechanisms of cell division. They do, however, have different purposes. Mitosis is used for growth (of tissues, etc.), replacing old cells, and for asexual reproduction, or reproduction with one parent. Meiosis produces sex cells or gametes, which are used in sexual reproduction.
What are six differences between mitosis and meiosis?
Six of the main differences between mitosis and meiosis are:
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