Methanogenium frigidum: Difference between revisions
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==Metabolism== | ==Metabolism== | ||
M. frigidum is a CO2 reducing methanogen that uses H2 as a reductant. The microbe can use formate in the place of H2, but it is not as efficient. Since M. frigidum is slow growing anyway, it is much more beneficial for the microbe to use H2 instead of formate as the electron donator. M. frigidum is unable to grow and reproduce without some form of NaCl in the environment, and does not produce NaCl itself. Most marine methane formed by living organisms is the result of carbon dioxide reduction processes. | M. frigidum is a CO2 reducing methanogen that uses H2 as a reductant. The microbe can use formate in the place of H2, but it is not as efficient. Since M. frigidum is slow growing anyway, it is much more beneficial for the microbe to use H2 instead of formate as the electron donator. M. frigidum is unable to grow and reproduce without some form of NaCl in the environment, and does not produce NaCl itself. Most marine methane formed by living organisms is the result of carbon dioxide reduction processes. | ||
===Nitrogen=== | |||
M. frigidum can grow using ammonia as the sole and sufficient source of nitrogen. Sulfur: Sulfide can be used as the sole source of sulfur in the metabolic processes of M. frigidum. | |||
==Ecology== | ==Ecology== |
Revision as of 03:40, 23 April 2014
Classification
Domain: Archaea Kingdom: Euryarchaeota Phylum: Euryarchaeota Class: Methanomicrobia Order: Methanomicrobiales Family: Methanomicrobiaceae Genus: Methanogenium Species: Methanogenium frigidum M. frigidum is named as such because the microbe is a methanogen that lives in very cold temperatures.
Description
M. frigidum is an extremophile found in Ace Lake in Antarctica; however, it is also found in deep-sea trenches that have a similar ecosystem as the one found at the bottom of Ace Lake. It thrives in the anoxic hypolimnion, and shows best growth at 15 degrees Celsius; however, it will not grow at temperatures above 20 degrees Celsius. There is also a lot of methane present in Ace Lake, due to the methanogens living in the lake. M. frigidum is the first sequenced extremophile living in cold temperatures that is also a methanogen growing by CO2 reduction. The cells are irregularly shaped coccoids and are about 1.2 to 2.5 microns in diameter. M. frigidum is gram negative and nonmotile, the cells do not have pili or flagella. The cells grow the best at a fairly neutral pH, it’s best growth occurring in the 6.5- 7.9 pH range. It is extremely slow growing, and can survive without oxygen or sunlight. There are flexible proteins present in M. frigidum that help the microbe survive in extreme temperatures, as well as cold-shock proteins that allow basic cell functions to continue in the cold temperatures. M. frigidum grows by CO2 reduction, and uses H2 as a reductant. M. frigidum was sequenced in order to study extremophiles living in conditions uncommon for most life. It is believed that many of these microbes support the possibility of life on other planets. In particular, there is evidence to suggest that there might be oceans beneath the surface of Europa, Jupiter’s sixth moon, which could support the life of M. frigidum.
Genome
M. frigidum’s genome is approximately 2 to 2.5 million base pairs in length, and it contains 1815 candidate protein coding genes. Due to M. frigidum’s psychrophilic lifestyle, the content of the genome itself has adapted to better reproduce itself in cold conditions; it codes for a high amount of noncharged polar amino acids (particularly glycine and threonine) and low levels of hydrophobic amino acids (leucine, in particular). Many species within the genus Methanogenium are thermophilic or hyperthermophilic, and consequently the G/C content of their genomes is significantly higher than that of comparable mesophilic organisms, in order to retard the process of heat-induced strand seperation. M. frigidum, however, has adapted to protect its genome from its temperature extreme by relying on DNA binding domains of Cold Shock Proteins to stabilize the structure.
Metabolism
M. frigidum is a CO2 reducing methanogen that uses H2 as a reductant. The microbe can use formate in the place of H2, but it is not as efficient. Since M. frigidum is slow growing anyway, it is much more beneficial for the microbe to use H2 instead of formate as the electron donator. M. frigidum is unable to grow and reproduce without some form of NaCl in the environment, and does not produce NaCl itself. Most marine methane formed by living organisms is the result of carbon dioxide reduction processes.
Nitrogen
M. frigidum can grow using ammonia as the sole and sufficient source of nitrogen. Sulfur: Sulfide can be used as the sole source of sulfur in the metabolic processes of M. frigidum.