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What is Mitosis?

Cell division is the driving process of reproduction at the cellular level. Most eukaryotic cells divide in a manner where the ploidy or the number of chromosomes remains the same, except in the case of germ cells where the number of chromosomes is halved.
Mitosis Diagram showing the different stages of mitosisMitosis Diagram showing the different stages of mitosis

Mitosis is the phase of the cell cycle where the nucleus of a cell is divided into two nuclei with an equal amount of genetic material in both the daughter nuclei. It succeeds the G2 phase and is succeeded by cytoplasmic division after the separation of the nucleus.
Mitosis is essential for the growth of the cells and the replacement of worn-out cells. Abnormalities during mitosis may alter the DNA, resulting in genetic disorders.

Features of Mitosis

  • In each cycle of cell division, two daughter cells are formed from the parent cell.
  • The cell is also known as equational cell division because the chromosome number in the parent cell and daughter cell is the same.
  • In plants, mitosis leads to the growth of vegetative parts of the plant like root tip, stem tip, etc.
  • Segregation and combination do not occur in this process.

The processes occurring during mitosis have been divided into different stages.

Stages of Mitosis

Right before prophase, the cell spends most of its life in the interphase, where preparations are made before the beginning of mitosis (the DNA is copied). However, since the actual process involves the division of the nucleus, prophase is technically the first stage of this process.
The different stages of mitosis occurring during cell division are given as follows-

Interphase

Before entering mitosis, a cell spends a period of its growth under interphase. It undergoes the following phases when in interphase:

  • G1 Phase: This is the period before the synthesis of DNA.
  • S Phase: This is the phase during which DNA synthesis takes place.
  • G2 Phase: This is the phase between the end of DNA synthesis and the beginning of prophase.

Prophase

Prophase immediately follows S and G2 phase of the cycle and is marked by condensation of the genetic material to form compact mitotic chromosomes composed of two chromatids attached at the centromere. The completion of prophase is characterised by the initiation of the assembly of the mitotic spindle, the microtubules and the proteinaceous components of cytoplasm that help in the process. The nuclear envelope starts disintegrating.
ProphaseProphase

Prometaphase 

In the prometaphase, the nuclear envelop disintegrates. Now the microtubules are allowed to extend from the centromere to the chromosome. The microtubules attach to the kinetochores which allow the cell to move the chromosome around.

Metaphase 

At this stage, the microtubules start pulling the chromosomes with equal force and the chromosome ends up in the middle of the cell. This region is known as the metaphase plate. Thus, each cell gets an entire functioning genome.


Metaphase
Metaphase


Anaphase 

The splitting of the sister chromatids marks the onset of anaphase. These sister chromatids become the chromosome of the daughter nuclei. The chromosomes are then pulled towards the pole by the fibres attached to the kinetochores of each chromosome. The centromere of each chromosome leads at the edge while the arms trail behind it.


Anaphase
Anaphase


Telophase 

The chromosomes that cluster at the two poles start coalescing into an undifferentiated mass, as the nuclear envelope starts forming around it. The nucleolus, Golgi bodies and ER complex, which had disappeared after prophase start to reappear.


Telophase
Telophase

Telophase is followed by cytokinesis, which denotes the division of the cytoplasm to form two daughter cells. Thus, it marks the completion of cell division.

Cytokinesis

Cytokinesis is the physical process of cell division, which divides the cytoplasm of a parental cell into two daughter cells. It occurs concurrently with two types of nuclear division called mitosis and meiosis, which occur in animal cells. Mitosis and each of the two meiotic divisions result in two separate nuclei contained within a single cell. 

Mitosis: Features, Stages, Functions & Significance | Biology for ACTCytokinesis performs an essential process to separate the cell in half and ensure that one nucleus ends up in each daughter cell. Cytokinesis starts during the nuclear division phase called anaphase and continues through telophase. A ring of protein filaments called the contractile ring forms around the equator of the cell just beneath the plasma membrane. The contractile ring shrinks at the equator of the cell, pinching the plasma membrane inward, and forming what is called a cleavage furrow. Eventually, the contractile ring shrinks to the point that there are two separate cells each bound by its own plasma membrane.

Functions of Mitosis

Following are the two important functions of mitosis:

  • Mitosis helps in the development of an organism. In single-celled organisms, mitosis is the process of asexual reproduction.
  • Mitosis helps in the replacement of damaged tissues. The cells near the damaged cells begin mitosis when they do not sense the neighbouring cells. The dividing cells reach each other and cover the damaged cells.

Significance of Mitosis

  • Mitosis is responsible for the development of the zygote into an adult.
  • Equal distribution of chromosomes to each daughter cell.
  • It is responsible for the growth and development of an individual.
  • It maintains the constant number of chromosomes in all body cells of an organism.
  • Mitosis is required for asexual reproduction, vegetative propagation in plants and also responsible for repair and regeneration of damaged tissues.
  • Mitosis helps in maintaining purity of the genome as no recombination or crossing over takes place.
  • It is responsible for repair and regeneration of old and damaged cells in animals e.g. gut epithelium, blood cells, etc.

The document Mitosis: Features, Stages, Functions & Significance | Biology for ACT is a part of the ACT Course Biology for ACT.
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FAQs on Mitosis: Features, Stages, Functions & Significance - Biology for ACT

1. What is mitosis and why is it important?
Ans. Mitosis is a type of cell division that ensures the growth, repair, and maintenance of multicellular organisms. It is important because it allows cells to produce genetically identical copies of themselves, ensuring the continuity of life and the development of new tissues and organs.
2. What are the stages of mitosis?
Ans. Mitosis consists of four stages: prophase, metaphase, anaphase, and telophase. During prophase, the cell's chromatin condenses into visible chromosomes. In metaphase, the chromosomes line up at the center of the cell. Anaphase is characterized by the separation of sister chromatids, while in telophase, two new nuclei are formed, and the cell begins to divide.
3. What are the functions of mitosis?
Ans. The main functions of mitosis include growth, tissue repair, and asexual reproduction. Mitosis ensures the production of new cells for the growth and development of an organism. It also allows damaged tissues to be repaired by replacing the injured cells. In asexual reproduction, mitosis allows organisms to reproduce without the need for a partner.
4. How does mitosis differ from meiosis?
Ans. Mitosis and meiosis are both types of cell division, but they differ in their purpose and outcomes. Mitosis produces two identical daughter cells with the same number of chromosomes as the parent cell, while meiosis produces four non-identical daughter cells with half the number of chromosomes. Mitosis is involved in growth and repair, while meiosis is essential for sexual reproduction, introducing genetic variation.
5. What is the significance of mitosis in cancer?
Ans. Mitosis plays a crucial role in the development and progression of cancer. Cancer cells have lost the ability to control their cell division, leading to uncontrolled growth and proliferation. The abnormal mitotic division in cancer cells allows tumors to form, invade surrounding tissues, and eventually spread to other parts of the body. Understanding mitosis is essential in studying and treating cancer.
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