Similarities Between Binary Fission and Cell Division

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The cells are propagated by division – a process in which the content of the mother cell is divided into two newly-derived daughter cells.

The cell division is three types:

  • binary fission – simple division
  • mitosis – complex division
  • meiosis – reductive division

Similarities Between Binary Fission and Cell Division

What is Binary Fission?

Prokaryotic cells are divided by simple division, called binary fusion. The binary fusion is a process of dividing the cell into two identical or almost identical halves. The cell increases its size, doubles its genetic information, and then divides into two new daughter cells. In prokaryotes, division results in the reproduction of the entire unicellular organism.

Four major events occur in the cell, in order to divide:

  1. Receiving a reproduction signal: Usually, external factors (presence of nutrients, appropriate temperature) control binary fusion.
  2. Replication of DNA: The genome of prokaryotes is represented by a cyclic DNA molecule. There is a specific area in it called a replication point, consisting of more than 22 different proteins. This replication point is attached to the plasma membrane and starts copying the DNA molecule. The new “daughter” genomes separate from each other during replication, remaining attached to the plasma membrane with their replication points.
  3. DNA Segregation: As a result of the DNA replication and the continued elongation of the maternal cell the daughter genomes are actively distancing from each other. The first area of the DNA molecule that replicates is the replication point. The two new replication points are spaced apart and a new plasma membrane begins to build between them. When the replication and elongation process ends, at the two opposite ends of the mother’s cell there are two DNA molecules almost separated by a new plasma membrane. Placing the plasma membrane between the two daughter genomes ensures that each new cell has one of them.
  4. Cytokinesis: Upon completion of the replication, the cell enters a short period of rest after which the cytokinesis starts with a slight folding of the plasma membrane of the cell and the formation of a ring of proteins. This ring is shrinking and provides for the final separation of the two new cells. Finally, each newly formed cell builds a new cell wall around its plasma membrane.

Similarities Between Binary Fission and Cell Division-1

Cell Division

Тhе eukaryotic cells divide by mitosis or meiosis.

Cell division of eukaryotic cells undergoes the same four basic steps as for prokaryotes, but due to their more complex structure, these processes are also more complex.

Unlike prokaryotic cells, eukaryotes do not begin to divide whenever external conditions are favorable. Signals of initiation of cell division in them come mainly from the needs of the entire multicellular organism.

Eukaryotic cells have a larger genome than prokaryotes. Chromosomes are much more complex structures than the single cyclic DNA molecule of prokaryotes, which makes the processes of replication and segregation far more complex.

The two key differences in the division of prokaryotic and eukaryotic cells are that:

  1. In eukaryotes, after completing the replication process of the genetic material, the doubled chromosomes remain linked together as sister chromatids.
  2. In eukaryotes exists a new mechanism for the exact distribution of chromosomes in the new nucleus, called mitosis.

The division of eukaryotic cells through mitosis involves:

  • receiving a reproduction signal,
  • replication of chromosomes in the nucleus,
  • separation of daughter chromosomes in the two new nuclei (mitosis),
  • separation of cytoplasm (cytokinesis).

The mitosis is the most common way for eukaryotic cells’ division. It is characteristic for the somatic cells. In multicellular organisms it:

  • ensures the growth of organisms (together with the increase in cell size),
  • replaces old tissues,
  • regenerates injured tissues.

Mitosis is a process of accurate distribution of the genetic material so that the two new daughter nuclei receive the same chromosome count as the mother’s cell.

Cell division consists of the following main stages:

  • mitosis,
  • cytokinesis.

During mitosis, a complete set of chromosomes is distributed in the two new nuclei located at the opposite ends of the mother cell.

During cytokinesis, the cytoplasm of the mother cell is split and two new daughter cells are formed.

The mitosis is preceded by interphase – a period of intense cellular activity in which the cell prepares for division.

Mitosis begins after the interphase is complete. It is a continuous process that is divided into four phases:

  • Prophase,
  • Metaphase,
  • Anaphase,
  • Telophase.

During these phases, the genetic material is distributed evenly between the two daughter nuclei.

Mitosis is followed by the cytokinesis, which separates the cytoplasm of the mother’s cell and two daughter cells are formed.

To complete the cell division, it is necessary to separate the cytoplasm of the mother cell and the two new nuclei to be isolated in two separate cells. This is achieved through cytokinesis. It begins before the telophase is completed and runs differently in the plant and animal cells.

The second mechanism of division of eukaryotic cells is called meiosis.

It is observed in cells that form the gametes, involved in the sexual reproduction of organisms. While in the mitosis the two obtained daughter cells are genetically identical to the mother and one with the other, in the meiosis they are not. Meiosis plays a key role in the sexual reproduction of organisms. It induces recombination of the hereditary information and halves the chromosomal set in the four new daughter cells obtained.

Similarities Between Binary Fission and Cell Division

  • Binary fission and cell division both lead to the division of one mother cell to two identical daughter cells.
  • Binary fission and cell division both start after receiving a signal, initiating the beginning of the cell division – a reproduction signal. It can come from the cell or outside of it.
  • Binary fission and cell division both include replication of DNA and other cell components.
  • Binary fission and cell division both include segregation of DNA – separation, and distribution of DNA at both ends of the maternal cell.
  • Binary fission and cell division both include cytokinesis – separation of the cytoplasm of the mother cell and differentiation of two new cells.

Summary:

  • The cells are propagated by division – a process in which the content of the mother cell is divided between two newly-derived daughter cells.
  • The cell division is three types: binary fission, mitosis, and meiosis.
  • Prokaryotic cells are divided by simple division, called binary fusion. The binary fusion is a process of dividing the cell into two identical or almost identical halves.
  • Eukaryotic cells divide by mitosis or meiosis.
  • Mitosis ensures the growth of organisms (together with the increase in cell size) and replacement of the old tissues.
  • Meiosis is observed in cells that form the gametes, involved in the sexual reproduction of organisms.
  • Binary fission and cell division both start after receiving a signal, initiating the beginning of the cell division – a reproduction signal. It can come from the cell or outside of it. They both include replication and segregation of DNA and other cell components.
  • Binary fission and cell division both include cytokinesis – separation of the cytoplasm of the mother cell and differentiation of two new cells.

Author: Dr. Mariam Bozhilova

Dr. Mariam Bozhilova has a Master’s degree in Ecology and PhD in Botany. Her main professional interests are in the fields of ecology, biology and chemistry. She has more than 10 years of professional experience in scientific research and environmental consultancy.

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