Metabolism/Citable Version

From Citizendium
< Metabolism
Revision as of 11:40, 1 November 2006 by imported>Pedro Silva
Jump to navigation Jump to search

Metabolism (from Greek μεταβολισμός "metabolismos") is the biochemical modification of chemical compounds in living organisms and cells. Metabolism has two distinct divisions: anabolism, in which a cell uses energy and reducing power to construct complex molecules and perform other life functions such a creating cellular structure; and catabolism, in which a cell breaks down complex molecules to yield energy and reducing power. Cell metabolism involves extremely complex sequences of controlled chemical reactions called metabolic pathways.

File:Metabolism Overview.svg
A visual overview of metabolism emphasizing carbon accounting.
A few of the metabolic pathways in a cell.

The term is derived from the Greek word for "change", or "overthrow".[1]

Metabolic pathways

Important metabolic pathways are:

General pathways

Anabolism

Anabolic pathways that create building blocks and compounds from simple precursors:

Catabolism

Drug metabolism

Drug metabolism pathways, the modification or degradation of drugs and other xenobiotic compounds through specialized enzyme systems:

Nitrogen metabolism

Nitrogen metabolism includes the pathways for turnover and excretion of nitrogen in organisms as well as the biological processes of the biogeochemical nitrogen cycle:

Other

History

[[Image:SantoriosMeal.jpg|thumb|right|150px|Santorio Santorio (1561-1636) in his steelyard balance, from Ars de statica medecina, first published 1614. The first controlled experiments in human metabolism were published by Santorio Santorio in 1614 in his book Ars de statica medecina that made him famous throughout Europe. He describes his long series of experiments in which he weighed himself in a chair suspended from a steelyard balance (see image), before and after eating, sleeping, working, sex, fasting, depriving from drinking, and excreting. He found that by far the greatest part of the food he took in was lost from the body through perspiratio insensibilis (insensible perspiration). At around the same time Jan Baptist van Helmont made the first observations regarding photosynthesis, when he discovered that plant growth required (almost) no soil nutrients. In the XVIII century, Priestley concluded that green plants use CO2 and release O2. In 1804, Nicolas de Saussure discovered that the increase in carbon content of plants (i.e. plant growth) arises from the fixation of atmospheric CO2. Between 1854 and 1864, Louis Pasteur discovered that glucose fermentation is due to microorganisms, and in 1897 Eduard Buchner proved that cell-free yeast extracts could also perform these reactions, and therefore the ability to ferment was not limited to living creatures. Subsequent investigations showed that (with a few exceptions) all living organisms metabolize glucose using the same mechanism.

See also

External links

Template:Biology-stub

Template:Link FA

Template:GFDL