A thermophilic anaerobic bacterial strain 1004-09 belonging to the genus Thermoanaerobacter and c... more A thermophilic anaerobic bacterial strain 1004-09 belonging to the genus Thermoanaerobacter and capable of growth on protein substrates such as albumin, gelatin, casein, and α- and β-keratins was isolated from the Urinskii hot spring (Barguzin river valley, Republic of Buryatia, Russia). A 150-kDa serine proteinase was revealed in the strain supernatant; it exhibited optimal activity at 60°C and pH 9.3 and was capable of keratin hydrolysis. A number of characteristics for the strain 1004-09 keratinase were established including activation by SDS and NaCl and residual activity (15% to the activity of the intact protein) in the presence of 10% ethanol and acetone.
Based on the analysis of 16S rRNA nucleotide sequences, oligonucleotide probes were designed for ... more Based on the analysis of 16S rRNA nucleotide sequences, oligonucleotide probes were designed for the detection of representatives of the genus Thermoanaerobacter. To increase the specificity of detection, the genus Thermoanaerobacter was divided into three groups. The probe Tab 827 (5"-GCTTCCGCDYCCCACACCTA-3") detected all known representatives of the genus Thermoanaerobacter; the probe Tab_1 844 (5"-TTAACTACGGCACGRAATGCTTC-3") was specific for the first group of species of the genus (T. wiegelii, T. siderophilus, T. sulfurophilus, T. brockii, T. kivui, T. ethanolicus, T. acetoethylicus, and T. thermohydrosulfuricus); the probe Tab_2 424 (5"-CACTAMYGGGGTTTACAACC-3") targeted the second group (T. thermocopriae, T. mathranii, and T. italicus); and the probe Tab_3 184 (5"-TCCTCCATCAGGATGCCCTA-3") was specific for the third group (T. tengcongensis, T. yonseiensis, T. subterraneus, and Carboxydibrachium pacificum, an organism related to the genus Thermoanaerobacter according to its 16S rRNA sequence). The oligonucleotide probes were labeled with Dig-11-dUTP. Hybridization with the probes showed the affiliation with Thermoanaerobacter of several pure cultures that were morphologically similar to representatives of this genus but possessed metabolic features unusual for it (capacity for agarose hydrolysis, anaerobic oxidation of CO, growth at low pH values) or were isolated from habitats previously unknown for Thermoanaerobacter (deep-sea hydrothermal vents).
Metabolic and phylogenetic diversity of cultivated anaerobic microorganisms from acidic continent... more Metabolic and phylogenetic diversity of cultivated anaerobic microorganisms from acidic continental hot springs and deep-sea hydrothermal vents was studied by molecular and microbiological methods. Anaerobic organotrophic enrichment cultures growing at pH 3.5–4.0 and 60 or 85°C with organic energy sources were obtained from samples of acidic hot springs of Kamchatka Peninsula (Pauzhetka, Moutnovski Volcano, Uzon Caldera) and Kunashir Island (South Kurils) as well as from the samples of chimneys of East Pacific Rise (13°N). The analyses of clone libraries obtained from terrestrial enrichment cultures growing at 60°C revealed the presence of archaea of genus Thermoplasma and bacteria of genus Thermoanaerobacter. Bacterial isolates from these enrichments were shown to belong to genera Thermoanaerobacter and Thermoanaerobacterium, being acidotolerant with the pH optimum for growth at 5.5–6.0 and the pH minimum at 3.0. At 85°C, domination of thermoacidophilic archaea of genus Acidilobus in terrestrial enrichments was found by both molecular and microbiological methods. Five isolates belonging to this genus possessed some phenotypic features that were new for this genus, such as flagellation or the ability to grow on monosaccharides or disaccharides. Analyses of clone libraries from the deep-sea thermoacidophilic enrichment cultures showed that the representatives of the genus Thermococcus were present at both 60 and 85°C. From the 60°C deep-sea enrichment, a strain belonging to Thermoanaerobacter siderophilus was isolated. It grew optimally at pH 6.0 with the minimum pH for growth at 3.0 and with salinity optimum at 0–2.5% NaCl and the maximum at 7%, thus differing significantly from the type strain. These data show that fermentative degradation of organic matter may occur at low pH and wide temperature range in both terrestrial and deep-sea habitats and can be performed by acidophilic or acidotolerant thermophilic prokaryotes.
A thermophilic anaerobic bacterial strain 1004-09 belonging to the genus Thermoanaerobacter and c... more A thermophilic anaerobic bacterial strain 1004-09 belonging to the genus Thermoanaerobacter and capable of growth on protein substrates such as albumin, gelatin, casein, and α- and β-keratins was isolated from the Urinskii hot spring (Barguzin river valley, Republic of Buryatia, Russia). A 150-kDa serine proteinase was revealed in the strain supernatant; it exhibited optimal activity at 60°C and pH 9.3 and was capable of keratin hydrolysis. A number of characteristics for the strain 1004-09 keratinase were established including activation by SDS and NaCl and residual activity (15% to the activity of the intact protein) in the presence of 10% ethanol and acetone.
Based on the analysis of 16S rRNA nucleotide sequences, oligonucleotide probes were designed for ... more Based on the analysis of 16S rRNA nucleotide sequences, oligonucleotide probes were designed for the detection of representatives of the genus Thermoanaerobacter. To increase the specificity of detection, the genus Thermoanaerobacter was divided into three groups. The probe Tab 827 (5"-GCTTCCGCDYCCCACACCTA-3") detected all known representatives of the genus Thermoanaerobacter; the probe Tab_1 844 (5"-TTAACTACGGCACGRAATGCTTC-3") was specific for the first group of species of the genus (T. wiegelii, T. siderophilus, T. sulfurophilus, T. brockii, T. kivui, T. ethanolicus, T. acetoethylicus, and T. thermohydrosulfuricus); the probe Tab_2 424 (5"-CACTAMYGGGGTTTACAACC-3") targeted the second group (T. thermocopriae, T. mathranii, and T. italicus); and the probe Tab_3 184 (5"-TCCTCCATCAGGATGCCCTA-3") was specific for the third group (T. tengcongensis, T. yonseiensis, T. subterraneus, and Carboxydibrachium pacificum, an organism related to the genus Thermoanaerobacter according to its 16S rRNA sequence). The oligonucleotide probes were labeled with Dig-11-dUTP. Hybridization with the probes showed the affiliation with Thermoanaerobacter of several pure cultures that were morphologically similar to representatives of this genus but possessed metabolic features unusual for it (capacity for agarose hydrolysis, anaerobic oxidation of CO, growth at low pH values) or were isolated from habitats previously unknown for Thermoanaerobacter (deep-sea hydrothermal vents).
Metabolic and phylogenetic diversity of cultivated anaerobic microorganisms from acidic continent... more Metabolic and phylogenetic diversity of cultivated anaerobic microorganisms from acidic continental hot springs and deep-sea hydrothermal vents was studied by molecular and microbiological methods. Anaerobic organotrophic enrichment cultures growing at pH 3.5–4.0 and 60 or 85°C with organic energy sources were obtained from samples of acidic hot springs of Kamchatka Peninsula (Pauzhetka, Moutnovski Volcano, Uzon Caldera) and Kunashir Island (South Kurils) as well as from the samples of chimneys of East Pacific Rise (13°N). The analyses of clone libraries obtained from terrestrial enrichment cultures growing at 60°C revealed the presence of archaea of genus Thermoplasma and bacteria of genus Thermoanaerobacter. Bacterial isolates from these enrichments were shown to belong to genera Thermoanaerobacter and Thermoanaerobacterium, being acidotolerant with the pH optimum for growth at 5.5–6.0 and the pH minimum at 3.0. At 85°C, domination of thermoacidophilic archaea of genus Acidilobus in terrestrial enrichments was found by both molecular and microbiological methods. Five isolates belonging to this genus possessed some phenotypic features that were new for this genus, such as flagellation or the ability to grow on monosaccharides or disaccharides. Analyses of clone libraries from the deep-sea thermoacidophilic enrichment cultures showed that the representatives of the genus Thermococcus were present at both 60 and 85°C. From the 60°C deep-sea enrichment, a strain belonging to Thermoanaerobacter siderophilus was isolated. It grew optimally at pH 6.0 with the minimum pH for growth at 3.0 and with salinity optimum at 0–2.5% NaCl and the maximum at 7%, thus differing significantly from the type strain. These data show that fermentative degradation of organic matter may occur at low pH and wide temperature range in both terrestrial and deep-sea habitats and can be performed by acidophilic or acidotolerant thermophilic prokaryotes.
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