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For cells of interest to psychologists see: Cell (disambiguation)

File:Average prokaryote cell- en.svg

In biology, cell theory is a scientific theory that describes the properties of cells, the basic unit of structure in every living thing. The initial development of the theory, during the mid-17th century, was made possible by advances in microscopy; the study of cells is called cell biology.

Cell theory states that new cells are formed from pre-existing cells, and that the cell is a fundamental unit of structure, function and organization in all living organisms. It is one of the foundations of biology.

History Edit

File:Cork Micrographia Hooke.png

The cell was discovered by Robert Hooke in 1665. He examined (under a coarse, compound microscope) very thin slices of cork and saw a multitude of tiny pores that he remarked looked like the walled compartments a monk would live in. Because of this association, Hooke called them cells, the name they still bear. However, Hooke did not know their real structure or function.[1] Hooke's description of these cells (which were actually non-living cell walls) was published in Micrographia.[2] His cell observations gave no indication of the nucleus and other organelles found in most living cells.

The first person to make a compound microscope was Zacharias Jansen, while the first to witness a live cell under a microscope was Antonie van Leeuwenhoek, who in 1674 described the algae Spirogyra and named the moving organisms animalcules, meaning "little animals".[3] Leeuwenhoek probably also saw bacteria.[4] Cell theory was in contrast to the vitalism theories proposed before the discovery of cells.

The idea that cells were separable into individual units was proposed by Ludolph Christian Treviranus[5] and Johann Jacob Paul Moldenhawer.[6] All of this finally led to Henri Dutrochet formulating one of the fundamental tenets of modern cell theory by declaring that "The cell is the fundamental element of organization".[7]

The observations of Hooke, Leeuwenhoek, Schleiden, Schwann, Virchow, and others led to the development of the cell theory. The cell theory is a widely accepted explanation of the relationship between cells and living things. The cell theory states:

  • All living things or organisms are made of cells and their products.
  • New cells are created by old cells dividing into two.
  • Cells are the basic building units of life.

The cell theory holds true for all living things, no matter how big or small, or how simple or complex. Since according to research, cells are common to all living things, they can provide information about all life. And because all cells come from other cells, scientists can study cells to learn about growth, reproduction, and all other functions that living things perform. By learning about cells and how they function, you can learn about all types of living things.

Credit for developing cell theory is usually given to three scientists: Theodor Schwann, Matthias Jakob Schleiden, and Rudolf Virchow. In 1839, Schwann and Schleiden suggested that cells were the basic unit of life. Their theory accepted the first two tenets of modern cell theory (see next section, below). However, the cell theory of Schleiden differed from modern cell theory in that it proposed a method of spontaneous crystallization that he called "free cell formation".[8] In 1855, Rudolf Virchow concluded that all cells come from pre-existing cells, thus completing the classical cell theory. (Note that the idea that all cells come from pre-existing cells had in fact already been proposed by Robert Remak; it has been suggested that Virchow plagiarised Remak.[9])

Modern interpretation Edit

The generally accepted parts of modern cell theory include:

  1. All known living things are made up of one or more cells.
  2. All living cells arise from pre-existing cells by division.
  3. The cell is the fundamental unit of structure and function in all living organisms.
  4. The activity of an organism depends on the total activity of independent cells.
  5. Energy flow (metabolism and biochemistry) occurs within cells.
  6. Cells contain hereditary information (DNA) which is passed from cell to cell during cell division.
  7. All cells are basically the same in chemical composition in organisms of similar species.

Types of cells Edit

Cells can be subdivided into the following subcategories:

  1. Prokaryotes: Prokaryotes lack a nucleus (though they do have circular DNA) and other membrane-bound organelles (though they do contain ribosomes). Bacteria and Archaea are two domains of prokaryotes.
  2. Eukaryotes: Eukaryotes, on the other hand, have distinct nuclei bound by a nuclear membrane and membrane-bound organelles (mitochondria, chloroplasts, lysosomes, rough and smooth endoplasmic reticulum, vacuoles). In addition, they possess organized chromosomes which store genetic material. From 1-D

See also Edit

References Edit

  1. Inwood, Stephen (2003). The man who knew too much: the strange and inventive life of Robert Hooke, 1635-1703, 72, London: Pan.
  2. Karling JS (1939). Schleiden's Contribution to the Cell Theory. The American Naturalist 73 (749): 517–37.
  3. Moll WAW (2006). Antonie van Leeuwenhoek. URL accessed on 2008-11-25.
  4. Porter JR (June 1976). Antony van Leeuwenhoek: tercentenary of his discovery of bacteria. Bacteriol Rev 40 (2): 260–9.
  5. Treviranus, Ludolph Christian 1811, "Beyträge zur Pflanzenphysiologie"
  6. Moldenhawer, Johann Jacob Paul 1812, "Beyträge zur Anatomie der Pflanzen"
  7. Dutrochet, Henri 1824, "Recherches anatomiques et physiologiques sur la structure intime des animaux et des vegetaux, et sur leur motilite, par M.H. Dutrochet, avec deux planches"
  8. Schleiden, Matthias Jakob 1839,"Contributions to Phytogenesis"
  9. Silver, George A. (January 1987). Virchow, the heroic model in medicine: health policy by accolade. American Journal of Public Health 77 (1).

Further reading Edit

  • Turner W (January 1890). The Cell Theory, Past and Present. J Anat Physiol 24 (Pt 2): 253–87.
  • Tavassoli M (January 1980). The cell theory: a foundation to the edifice of biology. Am. J. Pathol. 98 (1): 44.

External links Edit

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