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Senescence: Difference between revisions
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[[Image:Old_man.JPG|thumb|150px|right|The results of aging]] | [[Image:Old_man.JPG|thumb|150px|right|The results of aging]] | ||
Senescence is the process of the aging of cells which eventually leads to cell death. Many people think that if senescence was prevented, people could live much longer, if not forever. There is even an area of science, called gerontology, that studies the aging process in order to prevent age-related diseases and disabilities. | |||
== Celular Senescence == | == Celular Senescence == | ||
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[[Image:Telomere caps.gif|thumb|250px|left|The white spots at the end of the chromosomes are telomere caps]] | [[Image:Telomere caps.gif|thumb|250px|left|The white spots at the end of the chromosomes are telomere caps]] | ||
Cellular | Cellular senescence is the reproduction limits of normal cells. Most normal cells can divide up to 40 or 60 times before they are unable to divide anymore. This is referred to as he Hayflick Limit, after Dr. Leonard Hayflick who discovered cellular senescence. Some cells do not have this limit, though. These cells are cancer cells, and they can divide infinitely. [http://websites.afar.org/site/PageServer?pagename=IA_b_sene_01_what] | ||
Senescence is determined by telomeres. Telomeres are caps at the end of chromosomes that prevent chromosomes from fusing together. After each division of the cell, the length of the telomere shortens. When the telomere is finally gone, the cell cannot divide anymore and dies. Cancer cells can avoid this eventual death by introducing telomerase into its cells. Telomerase is a reverse-transcriptase enzyme that makes the telomeres longer after each division, thus preventing them from disappearing. [http://www.senescence.info/telomeres.html] | |||
== Apoptosis == | == Apoptosis == | ||
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[[Image:Apoptosis.jpg|thumb|150px|right|Flower dying through apoptosis]] | [[Image:Apoptosis.jpg|thumb|150px|right|Flower dying through apoptosis]] | ||
Programmed cell death is called [[apoptosis]]. This is commonly seen in plants, but can happen in all kinds of organisms. There are two main reasons for an organism to kill its own cells: It is needed for proper | Programmed cell death is called [[apoptosis]]. This is commonly seen in plants, but can happen in all kinds of organisms. There are two main reasons for an organism to kill its own cells: It is needed for proper development, and it is needed to destroy cells that pose a threat to the entire organism. This can be seen in the development of the human brain, where synapses must form by getting rid of surplus cells through apoptosis, or destroying cancer cells or cells infected with viruses through induced apoptosis. [http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/A/Apoptosis.html] | ||
There are three different ways that a cell can start the process of apoptosis. The first is to trigger it by sending internal signals through the mitochondrial pathway. The second way is through external signals through the death receptor pathway. Finally, the cell can trigger apoptosis through an inducing factor. [http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/A/Apoptosis.html] | There are three different ways that a cell can start the process of apoptosis. The first is to trigger it by sending internal signals through the mitochondrial pathway. The second way is through external signals through the death receptor pathway. Finally, the cell can trigger apoptosis through an inducing factor. [http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/A/Apoptosis.html] | ||
