Asgard archaea
Asgard archaea are a kingdom belonging to the domain Archaea that contain eukaryotic signature proteins.
After including the kingdom category into ICNP, the only validly published names of this group are kingdom Promethearchaeati and phylum Promethearchaeota. All formerly proposed "phyla" would be de-ranked to classes in this framework. It appears that the eukaryotes, the domain that contains the animals, plants, fungi and protists, emerged within the Promethearchaeati, in a branch containing the. This supports the two-domain system of classification over the three-domain system.
Discovery and nomenclature
In the summer of 2010, sediments were analysed from a gravity core taken in the rift valley on the Knipovich ridge in the Arctic Ocean, near the Loki's Castle hydrothermal vent site. Specific sediment horizons previously shown to contain high abundances of novel archaeal lineages were subjected to metagenomic analysis. In 2015, an Uppsala University-led team proposed the "Lokiarchaeota" phylum based on phylogenetic analyses using a set of highly conserved protein-coding genes. The group was named for the shape-shifting Norse god Loki, in an allusion to the hydrothermal vent complex from which the first genome sample originated. The Loki of mythology has been described as "a staggeringly complex, confusing, and ambivalent figure who has been the catalyst of countless unresolved scholarly controversies", analogous to the role of "Lokiarchaeota" in the debates about the origin of eukaryotes.In 2016, a University of Texas-led team discovered "Thorarchaeia" from samples taken from the White Oak River in North Carolina, named in reference to Thor, another Norse god. Samples from Loki's Castle, Yellowstone National Park, Aarhus Bay, an aquifer near the Colorado River, New Zealand's Radiata Pool, hydrothermal vents near Taketomi Island, Japan, and the White Oak River estuary in the United States contained and ; following the Norse deity naming convention, these groups were named for Odin and Heimdall respectively. Researchers therefore named the group containing these microbes "Asgard", after the home of the gods in Norse mythology. Two "Lokiarchaeota" specimens have been cultured, enabling a detailed insight into their morphology. Superphylum "Asgard" was renamed to kingdom Promethearchaeati and phylum "Lokiarchaeota" was renamed to family Promethearchaeaceae.
Description
Proteins
Asgard archaea encode many eukaryotic signature proteins, including novel GTPases, membrane-remodelling proteins like ESCRT and SNF7, a ubiquitin modifier system, and N-glycosylation pathway homologs.Asgard archaea have a regulated actin cytoskeleton, and the profilins and gelsolins they use can interact with eukaryotic actins. In addition, Asgard archaea tubulin from hydrothermal-living "Odinarchaeia" was identified as a genuine tubulin. OdinTubulin forms protomers and protofilaments most similar to eukaryotic microtubules, yet assembles into ring systems more similar to FtsZ, indicating that OdinTubulin may represent an evolution intermediate between FtsZ and microtubule-forming tubulins. They also seem to form vesicles under cryogenic electron microscopy. Some may have a PKD domain S-layer. They also share the three-way ES39 expansion in LSU rRNA with eukaryotes. Gene clusters or operons encoding ribosomal proteins are often less conserved in their organization in the Asgard archaea than in other archaea, suggesting that the order of ribosomal protein coding genes may follow the phylogeny.
Metabolism
Asgard archaea are generally obligate anaerobes, though "Kariarchaeaceae", "Gerdarchaeales" and "Hodarchaeales" may be facultative aerobes. They have a Wood–Ljungdahl pathway and perform glycolysis. Members can be autotrophs, heterotrophs, or phototrophs using heliorhodopsin. One member, Promethearchaeum syntrophicum, is syntrophic with a sulfur-reducing proteobacteria and a methanogenic archaea.The RuBisCO they have is not carbon-fixing, but likely used for nucleoside salvaging.
Ecology
Asgard archaea are widely distributed around the world, both geographically and by habitat. Many of the known clades are restricted to sediments, whereas Promethearchaeia, "Thorarchaeia" and another clade occupy many different habitats. Salinity and depth are important ecological drivers for most Asgard archaea. Other habitats include the bodies of animals, the rhizosphere of plants, non-saline sediments and soils, the sea surface, and freshwater. In addition, Asgard archaea are associated with several other microorganisms.Eukaryote-like features in subdivisions
The class was found in 2017 to have N-terminal core histone tails, a feature previously thought to be exclusively eukaryotic. Two other archaeal phyla, both non-Asgard archaea, were found to also have tails in 2018.In January 2020, scientists found Promethearchaeum syntrophicum, a member of the Promethearchaeia, engaging in cross-feeding with two bacterial species. Drawing an analogy to symbiogenesis, they consider this relationship a possible link between the simple prokaryotic microorganisms and the complex eukaryotic microorganisms occurring approximately two billion years ago.