auxotrophy
Sign in to savethumb|500x500px|This is a visual depiction of what conditions would allow for an auxotroph (top row of media: Colonies Auxotrophic to Arginine) compared to colonies that exhibit prototrophy (bottom row of media). Auxotrophy ( "to increase"; τροφή "nourishment") is the inability of an organism to synthesize a particular organic compound required for its growth (as defined by IUPAC). An auxotroph is an organism that displays this characteristic; auxotrophic is the corresponding adjective. Auxotrophy is the opposite of prototrophy, which is characterized by the ability to synthesize all the compo
Article
8 sectionsContents
- Applications
- Genetics
- The Mutagenicity test (or Ames test)
- Auxotrophy-based methods to incorporate unnatural amino acids into proteins and proteomes
- In popular culture
- See also
- Footnotes
- External links
thumb|500x500px|This is a visual depiction of what conditions would allow for an auxotroph (top row of media: Colonies Auxotrophic to Arginine) compared to colonies that exhibit prototrophy (bottom row of media). Auxotrophy ( "to increase"; τροφή "nourishment") is the inability of an organism to synthesize a particular organic compound required for its growth (as defined by IUPAC). An auxotroph is an organism that displays this characteristic; auxotrophic is the corresponding adjective. Auxotrophy is the opposite of prototrophy, which is characterized by the ability to synthesize all the compounds needed for growth.
Prototrophic cells are self-sufficient producers of all required metabolites (e.g. amino acids, lipids, cofactors), while auxotrophs require to be on medium with the metabolite that they cannot produce. For example, a methionine auxotrophic cell could only grow on a medium that contained methionine; otherwise, it would starve. In this example, this is because it is unable to produce its own methionine. However, a methionine prototrophic cell would be able to function and replicate on a medium with or without methionine.