Methanosarcina mazei Go1

Methanosarcina_mazei
Names Methanosarcina mazei Go1
Accession numbers NC_003901
Background Methanosarcina spp. are anaerobic methanogens that can form multicellular colonies. They can be found in a multitude of environments including the rumen in cows, sheep, goats, deer, ect. and the large intestine in humans. There has been recent study on M. barkeri because evidence of a 22nd amino acid named pyrrolysine has been detected. This protein was located in the active site of the enzyme methogenic methylamine methyltransferase, which catabolizes methylamines leading to methane production.Clearly containing the largest archaeal genome (4th largest of Prokaryotes) with 5,751,492 bp, M. acetivorans these genes for a multitude of different properties not shown by other archaeons. Another sequenced species, M. mazei also has a large genome in relation to other archaeons with 4,096,345 bp. An interesting discovery in the M. acetivorans genome was the presence of chaperonins GroEL/GroES that were believed to occur only in bacteria and eukaryotic cell organelles of bacterial ancestry. Three other main chaperoning systems were discovered as well. A pivotal question is then did M. acetivorans receive the genes by inheritance or by lateral transfer from a bacterium, which was suggested for M. mazei. The answer could dictate whether the common ancestor had these genes or whether they were a bacterial product that have been transferred.All the other methanogens can utilize no more than two methanogenic substrates and possess a single pathway for methanogenesis. Methanosarcina, on the other hand, has all three known pathways for methanogenesis and can utilize no less than nine methanogenic substrates. M. barkeri and M. mazei are autotrophic, but M. acetivorans is not.It also has a number of distinct morphological forms including single cells with and without a cell envelope, as well as multicellular packets and lamina. The packets and lamina showed internal morphological diversity, indicating possible cell differentiation. The fact that cells in the lamina secrete different extracellular material gives light to possible cell specialization as well. They are coccoid and have cell walls of protein, often having an external wall of a heteropolysaccharide. Most Methanosarcina spp. are surrounded by a polymeric network of methanochondroitin that is external to an S-layer. The term "matrix" has been proposed to describe this structure. It has been demonstrated by Xun et al. (1990, as cited in Ferry p.89) that the methanochondroitin causes cell-cell adhesion.(From http://microbewiki.kenyon.edu/index.php/Methanosarcina) (MicrobeWiki: Methanosarcina)
Taxonomy
Kingdom:Archaea
Phylum:Euryarchaeota
Class:Methanomicrobia
Order:Methanosarcinales
Family:Methanosarcinaceae
Genus:Methanosarcina
Species:mazei
Strain Go1
Complete Yes
Sequencing centre (10-SEP-2004) National Center for Biotechnology Information, NIH, Bethesda, MD 20894, USA
(25-JUN-2001) National Center for Biotechnology Information, NIH, Bethesda, MD 20894, USA
Sequencing quality Level 6: Finished
Sequencing depth NA
Sequencing method NA
Isolation site sewage plant
Isolation country Germany
Number of replicons 1
Gram staining properties NA
Shape Cocci
Mobility No
Flagellar presence Yes
Number of membranes 1
Oxygen requirements Anaerobic
Optimal temperature 30.0
Temperature range Mesophilic
Habitat Multiple
Biotic relationship Free living
Host name NA
Cell arrangement NA
Sporulation Nonsporulating
Metabolism Methanogen
Energy source Lithotroph
Diseases NA
Pathogenicity No