chemolithotroph
(noun)
chemoautotroph
Examples of chemolithotroph in the following topics:
-
The Energetics of Chemolithotrophy
- Chemolithotrophs use electron donors oxidized in the cell, and channel electrons into respiratory chains, producing ATP.
- Known chemolithotrophs are exclusively microbes; no known macrofauna possesses the ability to utilize inorganic compounds as energy sources.
- These molecules can be organic (chemoorganotrophs) or inorganic (chemolithotrophs).
- Chemolithotrophic growth could be dramatically fast, such as Thiomicrospira crunogena with a doubling time around one hour.
- In chemolithotrophs, the compounds - the electron donors - are oxidized in the cell, and the electrons are channeled into respiratory chains, ultimately producing ATP.
-
Epsilonproteobacteria
- Often the epsilonproteobacteria living in hydrothermal deep sea-vents exhibit chemolithotrophic features, and they are able to meet their energy needs by reducing or oxidixing chemical compounds.
-
Betaproteobacteria
- The Betaproteobacteria consist of several groups of aerobic or facultative bacteria that are often highly versatile in their degradation capacities, but also contain chemolithotrophic genera (e.g., the ammonia-oxidising genus Nitrosomonas) and some phototrophs (members of the genera Rhodocyclus and Rubrivivax).
-
Hydrogen Oxidation
- Most chemolithotrophic organisms are also autotrophic.
-
Energy and Nutrient Requirements for Prokaryotes
- Those that can also use inorganic compounds as energy sources are called chemolithotrophs.