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Vampirovibrionophyceae, is a class of bacteria within the phylum (named under the ). It has alternatively been treated as a Melainabacteria under the pre-"ota" Bacteriological Code, or its updated spelling Melainobacteriota. The latter teratment would place it at the same as Cyanobacteria, or in the new bacteriological rule, Cyanobacteriota.

Vampirovibrio chlorellavorus is the only species of the class that has been grown in . species of Melainabacteria have been discovered through and sequence analysis of samples from soil, the human gut, and various aquatic habitats such as groundwater. Melainabacteria was originally designated a when its DNA was discovered in 2013, then in 2014 was demoted to a class. By analyzing genomes of Melainabacteria, predictions are possible about their cell structure and metabolic abilities. The deduced structure of the bacterial cell is similar to cyanobacteria in being surrounded by two membranes. It differs from cyanobacteria in its predicted ability to move by (like gram-negative flagella), though some members (e.g. Gastranaerophilales) appear to lack flagella. It is predicted that Melainabacteria are not able to perform , but obtain energy by .

Phylogeny

Classification
  • Class " Melainabacteria" Soo et al. 2014 (ACD20)
    • Order " Caenarcanales" corrig. Soo et al. 2014 "Caenarcaniphilales"
      • Family "Caenarcanaceae" Chuvochina et al. 2023
        • Genus " Ca. " Soo et al. 2014
          • " Ca. C. bioreactoricola" Soo et al. 2014
    • Order " Obscuribacterales" Soo et al. 2014
      • Family "Obscuribacteraceae" Chuvochina et al. 2023
        • Genus " Ca. " Soo et al. 2014
          • " Ca. O. phosphatis" Soo et al. 2014
    • Order Vampirovibrionales Chuvochina et al. 2024
      • Family Vampirovibrionaceae Chuvochina et al. 2024
        • Genus Gromov & Mamkayeva 1972 ex Gromov & Mamkaeva 1980
          • V. chlorellavorus Gromov & Mamkayeva 1972 ex Gromov & Mamkaeva 1980
    • Order " Gastranaerophilales" Soo et al. 2014
      • Family "Adamsellaceae" Pallen, Rodriguez-R & Alikhan 2022 CAJFVJ01
      • Family RUG14156
        • Genus " Ca. Galligastranaerophilus" Gilroy et al. 2021
          • " Ca. G. faecipullorum" Gilroy et al. 2021
          • " Ca. G. gallistercoris" Gilroy et al. 2021
          • " Ca. G. intestinavium" Gilroy et al. 2021
          • " Ca. G. intestinigallinarum" Gilroy et al. 2021
      • Family "Gastranaerophilaceae" Gilroy et al. 2021
        • Genus " Ca. Avigastranaerophilus" Gilroy et al. 2021
          • " Ca. A. faecigallinarum" Gilroy et al. 2021
        • Genus " Ca. Gastranaerophilus" Soo et al. 2014
          • " Ca. G. phascolarctosicola" Soo et al. 2014
          • " Ca. G. termiticola" Utami et al. 2018
        • Genus " Ca. " Gilroy et al. 2021
          • " Ca. L. avicola" Gilroy et al. 2021
        • Genus " Ca. " Gilroy et al. 2021
          • " Ca. S. faecavius" Gilroy et al. 2021
        • Genus " Ca. " Gilroy et al. 2021
          • " Ca. S. excrementigallinarum" Gilroy et al. 2021
          • " Ca. S. excrementipullorum" Gilroy et al. 2021
        • Genus " Ca. " Gilroy et al. 2021
          • " Ca. S. excrementavium" Gilroy et al. 2021
        • Genus " Ca. " Gilroy et al. 2021
          • " Ca. S. faecigallinarum" Gilroy et al. 2021

Ecological niche
Melainabacteria can be found in a range of environments, including soil, water, and animal habitats. They can be often be found in the gut of humans and in the respiratory tract, oral environments, and skin surface, though rarely. Melainabacteria nucleic acids are often found in natural environments such as groundwater aquifers and lake sediment, soil, bioreactor, and the of aquatic environments such as lake sediment and aquifers. Cyanobacteria bloom in freshwater systems as a result of excess nutrients and high temperatures, resulting in a scum on the water surface that resembles spilled paint. Because Melainabacteria is a type of Cyanobacteria, it has raised concern because Melainabacteria thrive in groundwater systems. The genomes of Melainabacteria were found to be bigger when found in aquifer systems and algal cultivation ponds than when in the mammalian gut environment.

Origin
The Great Oxygenation Event (GOE) increased the abundance of oxygen in the atmosphere. Bacteria that existed before the GEO did not rely on oxygen, such as the billion-year-old Cyanobacteriota. Although they belong to the phylum Cyanobacteria, Melainabacteria do not photosynthesize. Cyanobacteria produced atmospheric oxygen and supported the development of early plant cells.

Genome
The genomes of Melainabacteria organisms isolated from ground water indicate that the organism has the capacity to fix nitrogen. Melainabacteria are predicted to lack linked electron transport chains, but have multiple methods to generate a membrane potential which can then produce ATP via . They are thought to be able to use for production that can be consumed by other microorganisms. Melainabacteria from the human gut also are thought to synthesize several and , which suggests that these bacteria are beneficial to their host because they are consumed along with plant fibers.

Animal habitats
Melainabacteria may play a role in digesting fiber in the human gut, and their nucleic acids are more commonly found in herbivorous mammals and those with plant-rich diets. Because plant diets require more fiber break-down, Melainabacteria may aid in this digestive function. However, scientists do not know why these microbes are in the gut and how they got there. Ongoing studies such as, "The human gut and groundwater harbor non-photosynthetic bacteria belonging to a new candidate phylum sibling to Cyanobacteria," are funded by various organizations such as the National Institutes of Health, the David and Lucile Packard Foundation, The Hartwell Foundation, the Arnold and Mabel Beckman Foundation, the U.S. Department of Energy, the European Molecular Biology Organization and the .

See also
  • List of bacteria genera
  • List of bacterial orders

External links

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