Bacillus infernus

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Bacillus infernus

Thin-section electron micrograph of Bacillus infernus, sp. nov., isolated from ca. 2.7 km below land surface in the Taylorsville Basin. These new species proposed by D. R. Boone et al. (1995) are thermophilic, halotolerant, and Fe(III)- and Mn(IV)-reducing anaerobes. Photo from http://geoweb.princeton.edu/research/geomicrobio/bacteria.html

A Microbial Biorealm page on the genus Bacillus infernus

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Phylogenetic tree for strains TH-22 and TH-23 and 34 selected species of eubacteria,based on a distance matrix analysis[1].


===Higher order taxa===
Bacteria; Firmicutes; Bacilli; Bacillales; Bacillaceae; Bacillus

Species

Bacillus infernus, a hyperthermophile, found 2.65-2.77 km beneath the Earth's surface. Photo courtesy of US Department of Energy- Subsurface Microbial Collection.

Bacillus infernus

Nonmotile rods (including possible yet unconfirmed endospores) inhabiting the deep terrestrial subsurface of the Taylorsville, Virginia Triassic Basin. The organism is thermophilic, halotolerant, and slightly alkaliphilic. B. infernus is important because it can affect geochemical processes including transport of toxic chemicals similar to other subsurface microorganisms. B. infernus also possesses a “novel” metabolism perhaps useful in future bioremediation of the environment, biotechnology, and industry[1].

Genomic information

Entire genome not sequenced yet. 16S rDNA partial sequencing of two anaerobic strains (Th-22 and TH-23) have been studied via PCR amplification. The isolated portion contains nearly the entire gene; approximately 1500 base segments[1][2]. The study concluded B.infernus should be classified as a new Bacillus species based on RDP database information[1][2][3][4].

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Tests with B. infernus reveal that the bacterium easily consumes and destroys Andromeda because of Andromeda's sulfur structure....SCIENTIFIC?? NO!!! BUT FUN?? YES!!! Photo from Wikipedia.

Cell and colony structure

Cells are Rod shaped. Dimensions are 0.7μm X 0.8μm in width by 4.0μm X 8.0μm in length. Endospores seem possible but as yet undetermined. Colony growth is pinpoint[1].

Metabolism

B. infernus is strictly anaerobic. It's the only strict anaerobe known of the Bacillus genus. Growth is fermentative utilizing glucose or respiratory using formate, lactate, MnO2, FE3+, trimethylamine oxide, and nitrate as electron donors. Nitrate is reduced to nitrite but is fermentative utilizing glucose or respiratory using formate, lactate, MnO2, Fe3+, trimethylamine oxide, and nitrate as electron donors. Nitrate is reduced to nitrite but not further reduced to ammonia or N2Metal reduction by thermophilic organisms is of great interest for a number of reasons. First, hydrothermal systems are often considered as modern analogs of the ancient Earth’s biosphere, and Fe(III) reduction could have been an important process on early Earth. Second, metal-microbe interaction is relevant as we search for life on other planets, as magnetite, a product of microbial reduction of iron, may constitute a robust bio-marker that may have survived through later stages of alteration. Third, metal reduction by thermophilicorganisms is intimately connected to human life, such as bioremediation of heavy metals and radionuclides in abandoned nuclear facilities and landfill sites.

Ecology

Deep terrestrial subsurface; Known samples obtained from depths of 2.65 to 2.77 km in the Taylorsville Triassic basin, Virginia. Bacillus infernus is thermophilic (61ºC), halotolerant (0.6 M Na+), and very slightly alkaliphilic (pH 7.3 to 7.8) [1].

References

[1]Boone, D. R., Liu, Y., Zhao, Z., Balkwill, D. L., Drake, G. R., Stevens, T. O., & Aldrich, H. C. (1995). Bacillus infernus sp. nov., an fe(iii)- and mn(iv)-reducing anaerobe from the deep terrestrial subsurface. International journal of systematic bacteriology, 441-448. doi: 10.1099/00207713-45-3-441. http://www.ncbi.nlm.nih.gov/pubmed/8590670

[2]Boone, D. R., Liu, Y., Zhao, Z. J., Balkwill, D. L., Drake, D. R., Stevens, T. O., & Aldrich, H. C. (2009, March 05). Bacillus infernus strain TH-23 16s ribosomal rna, partial sequence. Retrieved from http://www.ncbi.nlm.nih.gov/nuccore/NR_027227.

[3]Balkwill D.L.,Bacillus infernus TH-22 16s small subunit rRNA gene, partial sequence. (1995, May 18). Retrieved from http://www.ebi.ac.uk/ena/data/view/U20384

[4]Balwill, D. L. (1195, July 9). Bacillus infernus sp. nov., an Fe(III)- and Mn(IV)-reducing anaerobe from the deep terrestrial subsurface. Retrieved from http://rdp.cme.msu.edu/hierarchy/hierarchy_browser.jsp?qvector=65535&depth=0&openNode=0&seqid=&currentRoot=2268&searchStr=bacillus%20infernus&endDataValue=&showOpt=

Edited by Matt Flynn, a student of Dr. Lisa R. Moore, University of Southern Maine, Department of Biological Sciences, http://www.usm.maine.edu/bio