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Haloferax sp. D1227, a halophilic Archaeon capable of growth on aromatic compounds (1994)

Emerson, David ; Chauhan, Sadhana ; Oriel, Patrick ; [et al.]

Springer

Archives of microbiology 161 (1994), S. 445-452

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ISSN: 1432-072X

Keywords: Halophilic Archaea ; Haloferax ; Aromaticring mineralization ; Benzoate ; Cinnamate ; Phenylpropanoate ; Oil brine

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract A pink-pigmented halophilic Archaeon, Strain D1227, was isolated from soil contaminated with oil brine and shown to be a member of the genus Haloferax, based on: (1) its hybridization with a 16S rRNA probe universal for the Archaea; (2) its resistance to a broad spectrum of antibiotics that affect Bacteria; (3) its requirement for at least 0.86 M NaCl and 25 mM Mg2+ for growth; (4) its possession of C50-carotenoids characteristic of the halophilic Arachaea; (5) the thin layer chromatographic pattern of its polar lipids, which was identical to that of other species of Haloferax; and (6) its pleomorphic cell morphology. However, in contrast to the known species of Archaea, Haloferax strain D1227 was able to use aromatic substrates (e.g., benzoate, cinnamate, and phenylpropanoate) as sole carbon and energy sources for growth. Physiologically similar organisms, such as Haloferax volcanii, Haloferax mediterrani, Haloarcula vallismortis, and Haloarcula hispanica, could not grow on these aromatic substrates. When grown on 14C-benzoate, strain D1227 mineralized 70% of the substrate and assimilated 19% of the 14C-label into cell biomass. In addition to growth on aromatic substrates, D1227 was also capable of growth on a variety of carbohydrates and organic acids. Optimum growth of strain D1227 occurred at 45°C in media containing 1.7–2.6 M NaCl and 100 mM Mg2+. Under optimum growth conditions, the cell shape varied from that of an oblate spheroid on mineral salts medium alone, to discshaped, irregular or triangular cells on the same medium amended with yeast extract and tryptone. To our knowledge, this is the first unequivocal demonstration of the ability of an Archacon to grow by mineralization of aromatic substrates, and it adds a new dimension to our appreciation of the physiological diversity of this group of prokaryotes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00307764

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Clostridium mayombei sp. nov., an H2/CO2 acetogenic bacterium from the gut of the African soil-feeding termite, Cubitermes speciosus (1991)

Kane, Matthew D. ; Brauman, Alain ; Breznak, John A.

Springer

Archives of microbiology 156 (1991), S. 99-104

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ISSN: 1432-072X

Keywords: Clostridium mayombei ; Soil-feeding termites ; Cubitermes speciosus ; Gut microbe ; Hydrogen ; Acetogenic bacteria

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Clostridium mayombei sp. nov., a previously undescribed H2-oxidizing CO2-reducing acetogenic bacterium, was isolated from gut contents of the African soilfeeding termite, Cubitermes speciosus. Cells were anaerobic, Gram positive, catalase and oxidase negative, endospore-forming motile rods which measured 1×2 – 6 μm and which had a DNA base composition of 25.6 mol% G+C (strain SFC-5). Optimum conditions for growth on H2+CO2 were at 33°C and pH 7.3, and under these conditions cells produced acetate according to the equation: 4 H2+2 CO2→CH3COOH+2 H2O. Other substrates supporting good growth included carbohydrates (e.g. glucose, xylose, starch), sugar alcohols, and organic and amino acids, and with these substrates acetate was almost always the principle fermentation product. Comparative analysis of 16S rRNA nucleotide sequences confirmed that C. mayombei was closely related to various members of the genus Clostridium. However, morphological and physiological differences between C. mayombei and other homoacetogenic clostridia were deemed significant enough to warrant creation of a new taxon. Results are discussed in light of the diversity of H2/CO2 acetogens recently isolated from various termites, and in terms of the relative importance of H2/CO2 acetogenesis to termite nutrition.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00290980

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