Desulfurella amilsii

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Desulfurella amilsii
Scientific classification
Domain:
Bacteria
Phylum:
Campylobacterota
Class:
Desulfurellia
Order:
Desulfurellales
Family:
Desulfurellaceae
Genus:
Desulfurella
Species:
D. amilsii
Binomial name
Desulfurella amilsii
Florentino et al. 2016 [1]
Type strain
DSM 29984, JCM 30680, strain TR1 [2]

Desulfurella amilsii is a Gram-negative, non-spore-forming, obligately anaerobic sulfur-reducing, acidotolerant, moderately thermophilic and motile bacterium from the genus of Desulfurella which has been isolated from river sediments from the Tinto River in Spain. [1] [2] [3] [4] Desulfurella amilsii phenotypic characterization is also able to utilize thiosulfate as an electron acceptor and ferment pyruvate. In addition, it uses formate as an electron donor and can have a pH as low as 3. [5]

Related Research Articles

<span class="mw-page-title-main">Sulfur-reducing bacteria</span> Microorganisms able to reduce elemental sulfur to hydrogen sulfide

Sulfur-reducing bacteria are microorganisms able to reduce elemental sulfur (S0) to hydrogen sulfide (H2S). These microbes use inorganic sulfur compounds as electron acceptors to sustain several activities such as respiration, conserving energy and growth, in absence of oxygen. The final product of these processes, sulfide, has a considerable influence on the chemistry of the environment and, in addition, is used as electron donor for a large variety of microbial metabolisms. Several types of bacteria and many non-methanogenic archaea can reduce sulfur. Microbial sulfur reduction was already shown in early studies, which highlighted the first proof of S0 reduction in a vibrioid bacterium from mud, with sulfur as electron acceptor and H
2 as electron donor. The first pure cultured species of sulfur-reducing bacteria, Desulfuromonas acetoxidans, was discovered in 1976 and described by Pfennig Norbert and Biebel Hanno as an anaerobic sulfur-reducing and acetate-oxidizing bacterium, not able to reduce sulfate. Only few taxa are true sulfur-reducing bacteria, using sulfur reduction as the only or main catabolic reaction. Normally, they couple this reaction with the oxidation of acetate, succinate or other organic compounds. In general, sulfate-reducing bacteria are able to use both sulfate and elemental sulfur as electron acceptors. Thanks to its abundancy and thermodynamic stability, sulfate is the most studied electron acceptor for anaerobic respiration that involves sulfur compounds. Elemental sulfur, however, is very abundant and important, especially in deep-sea hydrothermal vents, hot springs and other extreme environments, making its isolation more difficult. Some bacteria – such as Proteus, Campylobacter, Pseudomonas and Salmonella – have the ability to reduce sulfur, but can also use oxygen and other terminal electron acceptors.

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Microbacter is a genus of bacteria from the family of Porphyromonadaceae, with one known species.

Microbacter margulisiae is a Gram-negative, anaerobic, non-spore-forming and non-motile bacterium from the genus of Microbacter which has been isolated from sediments from the Tinto River in Huelva in Spain.

Desulfatirhabdium butyrativorans is a Gram-negative, sulfate-reducing and butyrate-oxidizing bacterium from the genus of Desulfatirhabdium which has been isolated from anaerobic sludge in the Netherlands.

Brockia lithotrophica is a thermophilic bacterium from the genus of Brockia which has been isolated from a sediment-water mixture from a hot spring in Uzon Caldera in Russia. This bacterium is rod shaped, spore-forming and obligate anaerobe. It is lithoautotroph and grows on a mineral medium with molecular sulfur, thiosulfate or polysulfide; it has optimal growth temperature in the range of 60 to 65 °C for pH 6.5, but it is able to grow between 46 °C (115 °F) and 78 °C (172 °F) and pH ranging from 5.5 to 8.5.

Aeromonas rivipollensis is a Gram-negative, facultatively anaerobic, rod-shaped and motile bacterium from the genus Aeromonas which has been isolated from river sediments from the Ter River in Spain.

Streptomyces verrucosisporus is a bacterium species from the genus of Streptomyces which has been isolated from marine sediments from the Chumphon Province on Thailand.

Moorella humiferrea is a Gram-positive thermophilic, anaerobic and endospore-forming bacterium from the genus Moorella, which has been isolated from sediments from the Grot geyser, Valley of Geysers, Kamchatka, Russia. This microorganism is able to grow and reduce iron(III) oxide when small amounts of humic acid are available.

Caldimicrobium rimae is an extremely thermophilic, strictly anaerobic and facultatively chemolithoautotrophic bacterium from the genus of Caldimicrobium which has been isolated from the Treshchinnyi Spring from Uzon Caldera in Russia.

Micromonospora profundi is a bacterium from the genus Micromonospora which has been isolated from deep marine sediments from the Black Sea.

Micromonospora sediminis is a bacterium from the genus Micromonospora which has been isolated from mangrove sediments from Chonburi Province, Thailand.

Alkalibacillus almallahensis is a Gram-positive, halophilic, endospore-forming, rod-shaped and non-motile bacterium from the genus Alkalibacillus which has been isolated from sediments from a saltern from La Malahá in Spain.

Chitinispirillum is a genus of bacteria from the family of Chitinispirillaceae with one known species. Chitinispirillum alkaliphilum has been isolated from hypersaline lake sediments from the Wadi el Natrun valley in Egypt.

Thiohalomonas denitrificans is a moderately halophilic, obligately chemolithoautotrophic and sulfur-oxidizing bacterium from the genus of Thiohalomonas which has been isolated from sediments of hypersaline lakes from Siberia in Russia.

Nioella sediminis is a Gram-negative, short-rod-shaped and non-motile bacterium in the genus Nioella which has been isolated from sediments from the Jiulong River, China.

Sedimenticola thiotaurini is a sulfur-oxidizing and facultative anaerobe bacterium from the genus of Sedimenticola which has been isolated from salt marsh sediments from the Sippewissett Salt Marsh in the United States.

Lacibacter nakdongensis is a Gram-negative and non-spore-forming, bacterium from the genus of Lacibacter which has been isolated from sediments from the Nakdong River from Korea.

Thiobaca is a phototrophic and motile genus of bacteria from the family of Chromatiaceae with one known species. Thiobaca trueperi has been isolated from sediments from a eutrophic lake.

Trichococcus ilyis is a bacterium from the genus Trichococcus which has been isolated from sludge from an anaerobic sulfate-reducing bioreactor from Jiangsu.

References

  1. 1 2 Parte, A.C. "Desulfurella". LPSN .
  2. 1 2 "Desulfurella amilsii". www.uniprot.org.
  3. Parker, Charles Thomas; Garrity, George M (2016). Parker, Charles Thomas; Garrity, George M (eds.). "Nomenclature Abstract for Desulfurella amilsii Florentino et al. 2016". The NamesforLife Abstracts. doi:10.1601/nm.28292.
  4. Florentino, AP; Brienza, C; Stams, AJM; Sánchez-Andrea, I (March 2016). "Desulfurella amilsii sp. nov., a novel acidotolerant sulfur-respiring bacterium isolated from acidic river sediments". International Journal of Systematic and Evolutionary Microbiology. 66 (3): 1249–1253. doi: 10.1099/ijsem.0.000866 . PMID   26704766.
  5. Florentino, A. P., Stams, A. J., & Sánchez-Andrea, I. (2017). Genome Sequence of Desulfurella amilsii Strain TR1 and Comparative Genomics of Desulfurellaceae Family. Frontiers in microbiology, 8, 222. doi:10.3389/fmicb.2017.00222


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