11.) State differences between the events of meiosis and mitosis.
11.) State differences between the events of meiosis and mitosis.
A.)
MeiosisMeiosis is a type of cell division that results in the formation of four daughter cells each with half the number of chromosomes as the parent cell. |
MitosisMitosis is the type of cell division that results in the formation of two daughter cells each with the same number and kind of chromosomes as the parent cell. |
Table of Contents
Introduction
In single-celled organisms, cell reproduction gives rise to the next generation. In multicellular organisms, cell division occurs not just to produce a whole new organism but for growth and replacement of worn-out cells within the organisms.
Cell division is always highly regulated and follows a highly orchestrated series of steps. The term cytokinesis refers to the division of a cell’s cytoplasm, while mitosis and meiosis refer to two different forms of nuclear division.
Mitosis results in two nuclei that are identical to the original nucleus. Meiosis, on the other hand, results in four nuclei, each having half the number of chromosomes of the original cell. In animals, meiosis only occurs in the cells that give rise to the sex cells (gametes), i.e., the egg and the sperm.
Also read: Cell Cycle
Differences Between Mitosis and Meiosis
The important difference between mitosis and meiosis are mentioned below:
Difference between Mitosis and Meiosis | |
Mitosis | Meiosis |
Interphase | |
Each chromosome replicates during the S phase of the interphase. The result is two genetically identical sister chromatids (However, do note that interphase is technically not a part of mitosis because it takes place between one mitotic phase and the next). | Chromosomes not yet visible but DNA has been duplicated or replicated. |
Prophase | |
Prophase –Each of the duplicated chromosomes appears as two identical or equal sister chromatids. The mitotic spindle begins to form. Chromosomes condense and thicken. | Prophase I – crossing-over and recombination – Homologous chromosomes (each consists of two sister chromatids) appear together as pairs. Tetrad or bivalent is the structure that is formed. Segments of chromosomes are exchanged between non-sister chromatids at crossover points known as chiasmata (crossing-over). |
Metaphase | |
Metaphase -The chromosomes assemble at the equator at the metaphase plate. | Metaphase I – Chromosomes adjust on the metaphase plate. Chromosomes are still intact and arranged as pairs of homologues (bivalent). |
Anaphase | |
Anaphase – The spindle fibres begin to contract. This starts to pull the sister chromatids apart. At the end of anaphase, a complete set of daughter chromosomes is found on each pole. | Anaphase I – Sister chromatids stay intact. However, homologous chromosomes drift to the opposite or reverse poles. |
Mode of Reproduction | |
Asexual Reproduction | Sexual Reproduction |
Occurrence | |
All the cells | Reproductive cells |
Function | |
General growth and repair, Cell reproduction | Genetic diversity through sexual reproduction |
Cytokinesis | |
Occurs in Telophase | Occurs in Telophase I and in Telophase II |
Discovered by | |
Walther Flemming | Oscar Hertwig |
Mitosis Overview
- Mitosis is a continuous process of cell division which occurs in all types of living cells.
- Mitosis involves four basic phases – prophase, metaphase, anaphase and telophase.
- Mitosis is the process where the division of cell occurs by asexual reproduction.
- In mitosis, the nuclear membrane is broken down, spindle fibres (microtubules) attach to the chromatids at the centromere and pull apart the chromatids.
- When the chromatids reach separate ends of the cells, the spindle fibres disintegrate and a nuclear membrane rebuilds around the chromosomes making two nuclei.
- Each nucleus is identical to the original nucleus as it was in G1 phase.
Also read: Difference between haploid and diploid
Meiosis Overview
- Meiosis is the form of nuclear cell division that results in daughter cells that have one-half the chromosome numbers as the original cell.
- In organisms that are diploid, the end result is cells that are haploid. Each daughter cell gets one complete set of chromosomes, i.e., one of each homologous pair of chromosomes.
- In humans, this means the chromosome number is reduced from 46 to 23.
- The germ cells undergo meiosis to give rise to sperm and eggs.
- The joining together of a sperm and egg during fertilisation returns the number of the chromosomes to 46.
- Cells that undergo meiosis go through the cell cycle, including the S phase, so the process begins with chromosomes that consist of two chromatids just as in mitosis.
- Meiosis consists of meiosis I and meiosis II. In meiosis I, homologous chromosomes are separated into different nuclei.
- This is the reduction division; chromosome number is divided in half. Meiosis II is very similar to mitosis; chromatids are separated into separate nuclei.
- As in mitosis, it is spindle fibres that “pull” the chromosomes and chromatids apart in meiosis.
- The end result of meiosis is four cells, each with one complete set of chromosomes instead of two sets of chromosomes.
Also read: Significance of Meiosis
Similarities Between Mitosis and Meiosis
- Both mitosis and meiosis take place in the cell nuclei, which can be observed under a microscope.
- Both mitosis and meiosis involve cell division.
- Both the processes occur in the M-phase of the cell cycle. In both cycles, the typical stages are prophase, metaphase, anaphase and telophase.
- In both cycles, synthesis of DNA takes place.
Also Read:
Conclusion
The difference between Mitosis and Meiosis is quite apparent. They are two very different processes that have two different functions. Meiosis is required for genetic variation and continuity of all living organisms. Mitosis, on the other hand, is focused on the growth and development of cells. Meiosis also plays an important role in the repair of genetic defects in germline cells.
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