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Azoarcus

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Azoarcus
Scientific classification Edit this classification
Domain: Bacteria
Phylum: Pseudomonadota
Class: Betaproteobacteria
Order: Rhodocyclales
Family: Rhodocyclaceae
Genus: Azoarcus
Reinhold-Hurek et al. 1993
Type species
Azoarcus indigens
Species

Azoarcus anaerobius
Azoarcus buckelii
Azoarcus communis
Azoarcus evansii
Azoarcus indigens
Azoarcus olearius
Azoarcus toluclasticus
Azoarcus tolulyticus
Azoarcus toluvorans

Azoarcus is a genus of nitrogen-fixing bacteria.[1] Species in this genus are usually found in contaminated water, as they are involved in the degradation of some contaminants, commonly inhabiting soil. These bacteria have also been found growing in the endophytic compartment (inside the plant between the living cells) of some rice species and other grasses.[2] The genus is within the family Zoogloeaceae in the Rhodocyclales of the Betaproteobacteria.[3]

Many studies reported this genus about its potential extracellular electron uptake metabolism and has been found in the cathodic part of many microbial fuel cells, notably in nitrate and oxygen reducing bio-cathodes biofilms.[4][5][6]

References

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  1. ^ Reinhold-Hurek, B.; Hurek, T.; Gillis, M.; Hoste, B.; Vancanneyt, M.; Kersters, K.; De Ley, J. (1993). "Azoarcus gen. nov., Nitrogen-Fixing Proteobacteria Associated with Roots of Kallar Grass (Leptochloa fusca (L.) Kunth), and Description of Two Species, Azoarcus indigens sp. nov. and Azoarcus communis sp. nov". International Journal of Systematic Bacteriology. 43 (3): 574–584. doi:10.1099/00207713-43-3-574. ISSN 0020-7713.
  2. ^ Raven Biology of Plants 8th Edition. Freeman
  3. ^ Boden, R; Hutt, LP; Rae AW (2017). "Reclassification of Thiobacillus aquaesulis (Wood & Kelly, 1995) as Annwoodia aquaesulis gen. nov., comb. nov., transfer of Thiobacillus (Beijerinck, 1904) from the Hydrogenophilales to the Nitrosomonadales, proposal of Hydrogenophilalia class. nov. within the 'Proteobacteria', and four new families within the orders Nitrosomonadales and Rhodocyclales". International Journal of Systematic and Evolutionary Microbiology. 67 (5): 1191–1205. doi:10.1099/ijsem.0.001927. hdl:10026.1/8740. PMID 28581923.
  4. ^ Philippon, Timothé; Tian, Jianghao; Bureau, Chrystelle; Chaumont, Cédric; Midoux, Cédric; Tournebize, Julien; Bouchez, Théodore; Barrière, Frédéric (August 2021). "Denitrifying bio-cathodes developed from constructed wetland sediments exhibit electroactive nitrate reducing biofilms dominated by the genera Azoarcus and Pontibacter". Bioelectrochemistry. 140: 107819. doi:10.1016/j.bioelechem.2021.107819. ISSN 1567-5394. PMID 33894567. S2CID 233390050.
  5. ^ Jiawei, Yang; Shaoan, Cheng (2018-12-20). "Effects of Using Anode Biofilm and Cathode Biofilm Bacteria as Inoculum on the Start-up, Electricity Generation, and Microbial Community of Air-Cathode Single-Chamber Microbial Fuel Cells". Polish Journal of Environmental Studies. 28 (2): 693–700. doi:10.15244/pjoes/81700. ISSN 1230-1485.
  6. ^ Shehab, Noura; Li, Dong; Amy, Gary L.; Logan, Bruce E.; Saikaly, Pascal E. (November 2013). "Characterization of bacterial and archaeal communities in air-cathode microbial fuel cells, open circuit and sealed-off reactors". Applied Microbiology and Biotechnology. 97 (22): 9885–9895. Bibcode:2013ApMB...97.9885S. doi:10.1007/s00253-013-5025-4. ISSN 0175-7598. PMID 23775270. S2CID 205928.

Further reading

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