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1. [Biooxidation of a Double-Refractory Gold-Bearing Sulfide Ore Concentrate].

Author

Bulaev AG, Kanaeva ZK, Kanaev AT, and Kondrat'eva TF

Subjects
Archaea classification, Archaea genetics, Clostridium classification, Clostridium genetics, Gammaproteobacteria classification, Gammaproteobacteria genetics, Gold chemistry, Humans, Kazakhstan, Microbial Consortia genetics, Oxidation-Reduction, Phylogeny, RNA, Ribosomal, 16S genetics, Sulfur chemistry, Sulfur metabolism, Archaea metabolism, Arsenicals chemistry, Clostridium metabolism, Gammaproteobacteria metabolism, Gold isolation & purification, Iron chemistry, Iron Compounds chemistry, Minerals chemistry, Mining, Sulfides chemistry
Abstract

The efficiency of biooxidation for treatment of a double-refractory gold-bearing sulfide ore concentrate from the Bakyrchik deposit (East Kazakhstan) was defined. The experiments were conducted in two different modes, i.e., with the standard liquid medium and the medium imitating the chemical composition of the Bakyrchik deposit groundwater and containing high concentrations of sodium, magnesium, and chloride. The concentrate contained 17.5% of organic carbon, 6% of pyrite and 13% arsenopyrite. Gold content was 57.5 g t@-1@. Direct gold recovery by cyanidation was very low (2.8%). While biooxidation was efficient in both cases (approximately 90% of sulfide sulfur was oxidized), the efficiency of cyanidation was low (39 and 32%, respectively). This fact suggests high efficiency of biooxidation is insufficient for efficient treatment of double-refractory gold-bearing sulfide ore concentrates.

Published
2015

2. [Physiological Properties of Acidithiobacillus ferrooxidans Strains Isolated from Sulfide Ore Deposits in Kazakhstan].

Author

Kanaeva ZK, Bulaev AG, Kanaev AT, and Kondrat'eva TF

Subjects
Acidithiobacillus classification, Acidithiobacillus drug effects, Acidithiobacillus metabolism, Adaptation, Physiological, Iron metabolism, Kazakhstan, Minerals chemistry, Oxidation-Reduction, Phylogeny, Sodium Chloride pharmacology, Sulfides metabolism, Sulfur metabolism, Acidithiobacillus chemistry, DNA, Bacterial genetics, Iron chemistry, Sulfides chemistry, Sulfur chemistry
Abstract

Acidithiobacillus ferroxidans strains were isolated from acidophilic microbial communities of Kazakhstan sulfide ore deposits. Their biotechnologically important properties (optimal and maximal growth temperatures and resistance to NaCl) were determined. While temperature optima of the strains were the same (30-32 degrees C), temperature ranges were different. Thus, strain TFBK oxidized iron very poorly at 37 degrees C, while for strain TFV, the iron oxidation rate at this temperature was insignificantly lower than at lesser temperatures. NaCl inhibited the oxidative activity of both strains. Iron oxidation by strain TFV was inhibited at 5 g/L NaCl and was suppressed almost completely at 20 g/L. Iron oxidation by strain TFBK was inhibited by NaCl to a lesser degree, so that iron oxidation rate was relatively high at 10 g/L, while at 20 g/L NaCl the process was not suppressed completely, although the oxidation rate was low. Sulfur oxidation by these strains was less affected by NaCl than oxidation of ferrous iron. Sulfur oxidation by strain TFV was considerably inhibited only at 20 g/L NaCl, but was not suppressed completely. Sulfur oxidation by strain TFBK was more affected by NaCl. At 10 g/L NaCl the oxidation rate was much lower than at lower NaCl concentrations (sulfate concentrations after 6 days of oxidation at 5 and 10 g/L NaCl were -130 and -100 mM, respectively). While sulfur oxidation by strain TFBK was considerably inhibited at 10 and 20 g/L NaCl, similar to strain TFV it was not suppressed completely. Our results indicate the adaptation of the species A. ferrooxidans to a broad range of growth conditions.

Published
2015

3. [Leaching of Rare Earth Elements from Coal Ashes Using Acidophilic Chemolithotrophic Microbial Communities].

Author

Muravyov MI, Bulaev AG, Melamud VS, and Kondrat'eva TF

Subjects
Acidithiobacillus metabolism, Bioreactors, Clostridium metabolism, Coal Ash metabolism, Hydrogen-Ion Concentration, Lanthanum metabolism, Scandium metabolism, Sulfur metabolism, Temperature, Yttrium metabolism, Chemoautotrophic Growth physiology, Coal Ash chemistry, Lanthanum isolation & purification, Microbial Consortia physiology, Scandium isolation & purification, Yttrium isolation & purification
Abstract

A method for leaching rare earth elements from coal ash in the presence of elemental sulfur using communities of acidophilic chemolithotrophic microorganisms was proposed. The optimal parameters determined for rare element leaching in reactors were as follows: temperature, 45 degrees C; initial pH, 2.0; pulp density, 10%; and the coal ash to elemental sulfur ratio, 10 : 1. After ten days of leaching, 52.0, 52.6, and 59.5% of scandium, yttrium, and lanthanum, respectively, were recovered.

Published
2015

4. [Thermoacidophilic micirobial community oxidizing the gold-bearing flotation concentrate of a pyrite-arsenopyrite ore].

Author

Paniushkina AE, Tsaplina IA, Grigor'eva NV, and Kondrat'eva TF

Subjects
Archaea ultrastructure, Gram-Positive Bacteria ultrastructure, Oxidation-Reduction, Archaea metabolism, Arsenicals metabolism, Chemoautotrophic Growth physiology, Gold, Gram-Positive Bacteria metabolism, Iron metabolism, Iron Compounds metabolism, Microbial Consortia physiology, Minerals metabolism, Sulfides metabolism
Abstract

An aboriginal community of thermophilic acidophilic chemolithotrophic microorganisms (ACM) was isolated from a sample of pyrite gold-bearing flotation concentrateat 45-47 degrees C and pH 1.8-2.0. Compared to an experimental thermoacidophilic microbial consortium formed in the course of cultivation in parallel bioreactors, it had lower rates of iron leaching and oxidation, while its rate of sulfur oxidation was higher. A new thermophilic acidophilic microbial community was obtained by mutual enrichment with the micioorganisms from thie experimental and aboriginal communities during oxidation of sulfide ore flotation concentrate at 47 degrees C. The dominant bacteria of this new ACM community were Acidithiobacillus caldus strains (the most active sulfur oxidizers) and Sulfobacillus thermotolerans strains (active oxidizers of both iron and sulfur), while iron-oxidizing archaea of the family Ferroplasmaceae and heterotrophic bacteria Alicyclobacillus tolerans were the minor components. The new ACM community showed promise for leaching/oxidation of sulfides from flotation concentrates at high pulp density (S:L = 1:4).

Published
2014

5. [Optimization of bioleaching and oxidation of gold-bearing pyrite-arsnopyrite ore concentrate in batch mode].

Author

Grigor'eva NV, Tsaplina IA, Paniushkina AE, and Kondrat'eva TF

Subjects
Hydrogen-Ion Concentration, Oxidation-Reduction, Archaea metabolism, Arsenicals metabolism, Chemoautotrophic Growth physiology, Gram-Positive Bacteria metabolism, Iron metabolism, Iron Compounds metabolism, Minerals metabolism, Models, Biological, Sulfides metabolism
Abstract

Biooxidation of refractory gold-bearing pyrite-arsenopyrite flotation concentrate was optimized and aburidance of predominant groups in the community ofthermophilic acidophilic chemolithotrophic microorganisms at various stages ofbioleaching was determined. The optimal parameters for growth and leaching/oxidation of the mineral components of the concentrate were pSH 1.4, 1.6-1.8; 47.5 degrees C; and the following salt concentrations in the liquid phase (g/L): K2HPO4.3H2O, 0.53; (NH4)2SO4, 1.6 and MgSO4.7H2O, 2.5 (or (NH4)2SO4, 1.23; ammophos, 0.41; KOH, 0.1) with 0.03% yeast extract. The optimal conditions resulted in high growth rate, high levels of iron andarsenic leaching, of Fe2+ and S(2-)/S0 oxidation, and predominance of Acidithiobacillus caldus, Sulfobacillus spp., and Ferroplasma spp. in the community.

Published
2014

6. [Effect of temperature on the rate of oxidation of pyrrhotite-rich sulfide ore flotation concentrate and the structure of the acidophilic chemolithoautotrophic microbial community].

Author

Moshchanetskii PV, Pivovarova TA, Belyi AV, and Kondrat'eva TF

Subjects
Bacteria genetics, Environmental Microbiology, Gold isolation & purification, Gram-Positive Bacteria genetics, Gram-Positive Bacteria metabolism, Iron metabolism, Metallurgy, Minerals chemistry, Molecular Sequence Data, Oxidation-Reduction, RNA, Ribosomal, 16S, Temperature, Bacteria metabolism, Microbial Consortia physiology, Sulfides metabolism
Abstract

Oxidation of flotation concentrate of a pyrrhotite-rich sulfide ore by acidophilic chemolithoautotrophic microbial communities at 35, 40, and 45 degrees C was investigated. According to the physicochemical parameters of the liquid phase of the pulp, as well as the results of analysis of the solid residue after biooxidation and cyanidation, the community developed at 40 degrees C exhibited the highest rate of oxidation. The degree of gold recovery at 35, 40, and 45 degrees C was 89.34, 94.59, and 83.25%, respectively. At 40 degrees C, the highest number of microbial cells (6.01 x 10(9) cells/mL) was observed. While temperature had very little effect on the species composition of microbial communities, except for the absence of Leptospirillum ferriphilum at 35 degrees C, the shares of individual species in the communities varied with temperature. Relatively high numbers of Sulfobacillus thermosulfidooxidans, the organism oxidizing iron and elemental sulfur at higher rates than other acidophilic chemolithotrophic species, were observed at 40 degrees C.

Published
2014

7. [Bioregeneration of the solutions obtained during the leaching of nonferrous metals from waste slag by acidophilic microorganisms].

Author

Fomchenko NV, Murav'ev MI, and Kondrat'eva TF

Subjects
Biodegradation, Environmental, Industrial Waste, Microbial Consortia physiology, Oxidation-Reduction, Water Pollutants, Chemical, Acidithiobacillus metabolism, Clostridium metabolism, Copper chemistry, Iron chemistry, Zinc chemistry
Abstract

The bioregeneration of the solutions obtained after the leaching of copper and zinc from waste slag by sulfuric solutions of ferric sulfate is examined. For bioregeneration, associations of mesophilic and moderately thermqophilic acidophilic chemolithotrophic microorganisms were made. It has been shown that the complete oxidation of iron ions in solutions obtained after the leaching of nonferrous metals from waste slag is possible at a dilution of the pregnant solution with a nutrient medium. It has been found that the maximal rate of oxidation of iron ions is observed at the use of a mesophilic association of microorganisms at a threefold dilution of the pregnant solution with a nutrient medium. The application ofbioregeneration during the production of nonferrous metals from both waste and converter slags would make it possible to approach the technology of their processing using the closed cycle of workflows.

Published
2014

8. [Oxidation of gold-antimony ores by a thermoacidophilic microbial consortium].

Author

Tsaplina IA, Sorokin VV, Zhuravleva AE, Melamud VS, Bogdanova TI, and Kondrat'eva TF

Subjects
Antimony chemistry, Bacteria ultrastructure, Gold chemistry, Oxidation-Reduction, Antimony metabolism, Bacteria metabolism, Gold metabolism, Microbial Consortia physiology
Abstract

Antimony leaching from sulfide ore samples by an experimental consortium of thermoacidophilic microorganisms, including Sulfobacillus, Leptospirillum, and Ferroplasma strains was studied. The ores differed significantly in the content of the major metal sulfides (%): Sb(S), 0.84 to 29.95; Fe(S), 0.47 to 2.5, and As(S), 0.01 to 0.4. Independent on the Sb(S) concentration in the experimental sample, after adaptation to a specific ore and pulp compaction the microorganisms grew actively and leached/oxidized all gold-antimony ores at 39 ± 1 degrees C. The lower was the content of iron and arsenic sulfides, the higher was antimony leaching. For the first time the investigations conducted with the use of X-ray microanalysis research made it possible to conclude that in a natural high-antimony ore Sb inhibits growth of only a part of the cell population and that Ca, Fe, and Sb may compete for the binding centers of the cell.

Published
2013

9. [Selection of a community of acidochemolithotrophic microorganisms with a high oxidation rate of pyrrhotite- containing sulphide ore flotatation concentrate].

Author

Kondrat'eva TF, Pivovarova TA, Bulaev AG, Moshchanetskiĭ PV, Tsaplina IA, Grigor'eva NV, Zhuravleva AE, Melamud VS, and Belyĭ AV

Subjects
Gram-Negative Aerobic Bacteria cytology, Oxidation-Reduction, Chemoautotrophic Growth physiology, Ferrous Compounds metabolism, Gram-Negative Aerobic Bacteria metabolism, Sulfur metabolism
Abstract

A community of acidochemolithotrophic microorganisms with a high oxidation rate of pyrrhotite-containing sulphide ore flotation concentrate was selected. The Acidithiobacillus caldus OP-1 and Ferroplasma acidiphilum OP-2 cultures were identified to be dominating members. The presence of the Acidithio- bacillusferrooxidans OP-3, Leptospirillumferriphilum OP-4, and Sulfobacillus thermosulfidooxidans OP-5 cultures in the community's composition was also mentioned. The analysis results of solid residues of the process showed a greater elemental sulfur oxidation level and gold recovery when the initial pH value in tank I was maintained at a level of 1.8-2.0 (90.5%) rather than 1.6-1.8 (86.3%).

Published
2013
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10. [Oxidation of sulfur-containing substrates by aboriginal and experimentally designed microbial communities].

Author

Pivovarova TA, Bulaev AG, Roshchupko PV, Belyĭ AV, and Kondrat'eva TF

Subjects
Gold chemistry, Hydrogen-Ion Concentration, Iron chemistry, Oxidation-Reduction, Tetrathionic Acid chemistry, Thiosulfates chemistry, Arsenicals chemistry, Chemoautotrophic Growth physiology, Gold isolation & purification, Iron Compounds chemistry, Microbial Consortia physiology, Minerals chemistry, Sulfides chemistry, Sulfur chemistry
Abstract

Aboriginal and experimental (constructed of pure microbial cultures) communities of acidophilic chemolithotrophs have been studied. The oxidation of elemental sulfur, sodium thiosulfate, and potassium tetrathionate as sole sources of energy has been monitored. The oxidation rate of the experimental community is higher as compared to the aboriginal community isolated from a flotation concentrate of pyrrhotine-containing pyrite-arsenopyrite gold-arsenic sulfide ore. The degree of oxidation of the mentioned S substrates amounts to 17.91, 68.30, and 93.94% for the experimental microbial community and to 10.71, 56.03, and 79.50% for the aboriginal community, respectively. The degree of oxidation of sulfur sulfide forms in the ore flotation concentrate is 59.15% by the aboriginal microbial community and 49.40% by the experimental microbial community. Despite a higher rate of oxidation of S substrates as a sole source of energy by the experimental microbial community, the aboriginal community oxidizes S substrates at a higher rate in the flotation concentrate of pyrrhotine-containing pyrite-arsenopyrite gold-arsenic sulfide ore, from which it was isolated. Bacterial-chemical oxidation of the flotation concentrate by the aboriginal microbial community allows for the extraction of an additional 32.3% of gold from sulfide minerals, which is by 5.7% larger compared to the yield obtained by the experimental microbial community.

Published
2012

14. [Diversity of acidophilic chemolithotrophic microbial consortia in natural and anthropogenic ecosystems].

Author

Kondrat'eva TF, Pivovarova TA, Tsaplina IA, Fomchenko NV, Zhuravleva AE, Murav'ev MI, Melamud VS, and Bulaev AG

Subjects
Adaptation, Physiological, Biotechnology, Ecosystem, Ferrous Compounds metabolism, Humans, Hydrogen-Ion Concentration, Minerals metabolism, Phylogeny, Plasmids, Sulfides metabolism, Sulfur metabolism, Temperature, Chemoautotrophic Growth physiology, Genetic Variation, Microbial Consortia physiology
Published
2012

15. [Biohydrometallurgical technology of a complex copper concentrate process].

Author

Murav'ev MI, Fomchenko NV, and Kondrat'eva TF

Subjects
Adaptation, Biological drug effects, Copper chemistry, Copper Sulfate chemistry, Copper Sulfate pharmacology, Ferric Compounds chemistry, Ferric Compounds metabolism, Hydrogen-Ion Concentration, Iron chemistry, Iron metabolism, Oxidation-Reduction, Spectrum Analysis, Sulfuric Acids chemistry, Archaea metabolism, Bacteria metabolism, Copper metabolism, Copper Sulfate metabolism, Industrial Microbiology methods, Metallurgy methods
Abstract

Leaching of sulfide-oxidized copper concentrate of the Udokan deposit ore with a copper content of 37.4% was studied. In the course of treatment in a sulfuric acid solution with pH 1.2, a copper leaching rate was 6.9 g/kg h for 22 h, which allowed extraction of 40.6% of copper. As a result of subsequent chemical leaching at 80 degrees C during 7 h with a solution of sulphate ferric iron obtained after bio-oxidation by an association of microorganisms, the rate of copper recovery was 52.7 g/kg h. The total copper recovery was 94.5% (over 29 h). Regeneration of the Fe3+ ions was carried out by an association of moderately thermophilic microorganisms, including bacteria of genus Sulfobacillus and archaea of genus Ferroplasma acidiphilum, at 1.0 g/l h at 40 degrees C in the presence of 3% solids obtained by chemical leaching of copper concentrate. A technological scheme of a complex copper concentrate process with the use of bacterial-chemical leaching is proposed.

Published
2011

16. [Species composition of acidophilic chemolithotrophic microbial consortia taking part in oxidation of arsenogold concentrates from ore deposits].

Author

Bulaev AG, Pivovarova TA, Melamud VS, Bumazhkin BK, Patutina EO, Kolganova TV, Kuznetsov BB, and Kondrat'eva TF

Subjects
Arsenic chemistry, Bacteria classification, Bacteria isolation & purification, Bacteria metabolism, Bacterial Typing Techniques, Cell Culture Techniques, Cloning, Molecular, Colony Count, Microbial, DNA, Bacterial analysis, DNA, Bacterial genetics, DNA, Ribosomal, Gene Library, Genes, rRNA, Gold chemistry, Phylogeny, Polymerase Chain Reaction, RNA, Ribosomal, 16S analysis, Russia, Sequence Analysis, DNA, Sequence Homology, Nucleic Acid, Arsenic metabolism, Bacteria genetics, Chemoautotrophic Growth genetics, Gold metabolism, Industrial Microbiology, Microbial Consortia physiology, RNA, Ribosomal, 16S genetics
Published
2011

17. [Leaching of copper ore of the Udokanskoe deposit at low temperatures by an association of acidophilic chemolithotrophic microorganisms].

Author

Kondrat'eva TF, Pivovarova TA, Krylova LN, Melamud VS, Adamov EV, and Karavaĭko GI

Subjects
Acidithiobacillus genetics, Acidithiobacillus isolation & purification, Copper chemistry, DNA, Bacterial analysis, Minerals chemistry, Oxidation-Reduction, Sulfides chemistry, Temperature, Acidithiobacillus metabolism, Chemoautotrophic Growth, Copper metabolism
Abstract

Pure cultures of indigenous microorganisms Acidithiobacillus ferrooxidans strain TFUd, Leptospirillum ferrooxidans strain LUd, and Sulfobacillus thermotolerans strain SUd have been isolated from the oxidation zone of sulfide copper ore of the Udokanskoe deposit. Regimes of bacterial-chemical leaching of ore have been studied over a temperature range from -10 to +20 degrees C. Effects of pH, temperature, and the presence of microorganisms on the extraction of copper have been shown. Bacterial leaching has been detected only at positive values of temperature, and has been much more active at +20 than at +4 degrees C. The process of leaching was more active when the ore contained more hydrophilic and oxidized minerals. The possibility of copper ore leaching of the Udokanskoe deposit using sulfuric acid with pH 0.4 at negative values of temperature and applying acidophilic chemolithotrophic microorganisms at positive values of temperature and low pH values was shown.

Published
2011

18. [Polymorphism In Sulfobacillus Thermosulfidooxidans Strains That Dominate In The High Temperature Oxidation Process Of Gold-Arsenic Concentrates].

Author

Bulaev AG, Pivovarova TA, Melamud VS, Tsaplina IA, Zhuravleva AE, and Kondrat'eva TF

Subjects
Arsenic chemistry, Bacterial Typing Techniques, Gold chemistry, Hot Temperature, Hydrogen-Ion Concentration, Iron chemistry, Iron metabolism, Oxidation-Reduction, Phylogeny, Polymerase Chain Reaction, RNA, Ribosomal, 16S analysis, Sulfur chemistry, Sulfur metabolism, Arsenic metabolism, Extraction and Processing Industry methods, Gold metabolism, Sulfur-Reducing Bacteria genetics, Sulfur-Reducing Bacteria growth & development, Sulfur-Reducing Bacteria isolation & purification, Sulfur-Reducing Bacteria metabolism
Published
2011

20. [Species and strain composition of microbial associations oxidizing different types of gold-bearing concentrates].

Author

Pivovarova TA, Melamud VS, Savari EE, Sedel'nikova GV, and Kondrat'eva TF

Subjects
Bacteria cytology, Oxidation-Reduction, Bacteria growth & development, Gold, Sulfides metabolism
Abstract

Quantitative abundance of microbial species within an association was found to depend on the energy substrate and the oxidation temperature of sulfide minerals. The number of microbial cells varied depending on the position of reactor in the chain, i.e., the stage of the energy substrate oxidation. Microbial associations oxidized the energy substrate more efficiently than any of their individual components. The increase in pulp density up to the solid : liquid ratio of 1 : 2.5 had an unfavorable effect on microorganisms comprising microbial associations.

Published
2010

21. [Growth and metabolism of Sulfobacillus under oxygen limitation].

Author

Tsaplina IA, Zhuravleva AE, Egorova MA, Bogdanova TI, Krasil'nikova EN, Zakharchuk LM, and Kondrat'eva TF

Subjects
Aerobiosis, Cell Culture Techniques, Culture Media, Ferric Compounds metabolism, Ferrous Compounds metabolism, Oxidation-Reduction, Bacteria growth & development, Bacteria metabolism, Oxygen metabolism
Published
2010

22. [Oxidation of sulfur-containing substrates by an association of acidophilic chemolithotrophic microorganisms].

Author

Revenko AA, Melamud VS, Krasil'nikov GS, Pivovarova TA, Belyĭ VA, and Kondrat'eva TF

Subjects
Gold chemistry, Hydrogen-Ion Concentration, Oxidation-Reduction, Sodium Cyanide chemistry, Sulfates chemistry, Bacteria growth & development, Gold isolation & purification, Sulfates metabolism
Abstract

Quantitative and qualitative changes in the content of elements in the solid and liquid phases occurred as the pulp moved through fermenters during biooxidation of an ore flotation concentrate. The association of microorganisms were adapted for utilizing sulfur-containing substrates; however, the rate of their oxidation was insufficient, which led to an increase in the amount of sodium cyanide required for gold recovery. The replacement of one-fourth of the liquid phase of the pulp (density, 13%) with a mineral medium without an energy source, the fractional addition of FeSO4 x 7H2O (1 g/l per day), and the improvement of pulp aeration made it possible to increase the content of SO4(2-) by 80.7, 86.2, and 58.5%, respectively. When one-fourth of the liquid phasa of the pulp (density, 24%) was replaced with a mineral medium without an energy source, the rate of additional oxidation of sulfide minerals increased, which increased the efficiency of gold extraction into solution and gold recovery on charcoal by 3.4 and 3.6%, respectively, and reduced sodium cyanide consumption by 3 kg/ton.

Published
2009

23. [Acidophilic chemolithotrophic microorganisms: growth and pyrite oxidation ].

Author

Tupikina OV, Samorukova VD, and Kondrat'eva TF

Subjects
Acidithiobacillus genetics, Clostridium genetics, Iron chemistry, Oxidation-Reduction, Substrate Specificity, Sulfides chemistry, Acidithiobacillus enzymology, Acidithiobacillus growth & development, Clostridium enzymology, Euryarchaeota enzymology, Iron metabolism, Sulfides metabolism
Published
2009

24. [Pyrite oxidation by the diverse microorganisms].

Author

Tupikina OV, Rassulov VA, and Kondrat'eva TF

Subjects
Iron chemistry, Oxidation-Reduction, Sulfides chemistry, Acidithiobacillus enzymology, Clostridium enzymology, Euryarchaeota enzymology, Iron metabolism, Sulfides metabolism
Published
2009

25. [Phenotypic properties of Sulfobacillus thermotolerans: comparative aspects].

Author

Tsaplina IA, Krasil'nikova EN, Zhuravleva AE, Egorova MA, Zakharchuk LM, Suzina NE, Duda VI, Bogdanova TI, Stadnichuk IN, and Kondrat'eva TF

Subjects
Carbon metabolism, Carbon Dioxide metabolism, Culture Media, Gram-Positive Endospore-Forming Bacteria chemistry, Heme analysis, Oxidation-Reduction, Spectrophotometry, Temperature, Gram-Positive Endospore-Forming Bacteria physiology, Gram-Positive Endospore-Forming Bacteria ultrastructure
Abstract

The phenotypic characteristics of the species Sulfobacillus thermotolerans Kr1(T), as dependent on the cultivation conditions, are described in detail. High growth rates (0.22-0.30 h(-1)) and high oxidative activity were recorded under optimum mixotrophic conditions at 40 degrees C on medium with inorganic (Fe(II), S(0), or pyrite-arsenopyrite concentrate) and organic (glucose and/or yeast extract) substrates. In cells grown under optimum conditions on medium with iron, hemes a, b, and, most probably, c were present, indicating the presence of the corresponding cytochromes. Peculiar extended structures in the form of cylindrical cords, never observed previously, were revealed; a mucous matrix, likely of polysaccharide nature, occurred around the cells. In the cells of sulfobacilli grown litho-, organo-, and mixotrophically at 40 degrees C, the enzymes of the three main pathways of carbon utilization and some enzymes of the TCA cycle were revealed. The enzyme activity was maximum under mixotrophic growth conditions. The growth rate in the regions of limiting temperatures (55 degrees C and 12-14 degrees C) decreased two- and tenfold, respectively; no activity of 6-phosphogluconate dehydrogenase, one of the key enzymes of the oxidative pentose phosphate pathway, could be revealed; and a decrease in the activity of almost all enzymes of glucose metabolism and of the TCA cycle was observed. The rate of 14CO2 fixation by cells under auto-, mixo-, and heterotrophic conditions constituted 31.8, 23.3, and 10.3 nmol/(h mg protein), respectively. The activities of RuBP carboxylase (it peaked during lithotrophic growth) and of carboxylases of heterotrophic carbon dioxide fixation were recorded. The physiological and biochemical peculiarities of the thermotolerant sulfobacillus are compared versus moderately thermophilic sulfobacilli.

Published
2008

26. [Effect of acidic treatment of the chemical composition and bacterial oxidation of arsenic-bearing gold concentrate].

Author

Fomchenko NV, Pivovarova TA, and Kondrat'eva TF

Subjects
Arsenicals chemistry, Bacteria metabolism, Gold chemistry, Oxidation-Reduction, Sulfides chemistry, Arsenicals metabolism, Bacteria growth & development, Gold metabolism, Mining, Sulfides metabolism
Abstract

Effect of acidic pretreatment of arsenic-bearing gold concentrate, a promising gold source, on its chemical composition and efficiency of its bacterial oxidation (BO) was studied. The titer of sulfobacilli during BO of the concentrate after high-temperature acidic treatment was 9.0 x 10(7) cells/ml, the degree of arsenic sulfide oxidation being 71.1%, and in the control, 6.5 x 10(7) cells/ml with the oxidation degree as low as 48.7%. Deeper oxidation of the main gold-containing mineral, arsenic sulfide, would allow more efficient gold recovery from the concentrate.

Published
2008

27. The primary structure and characteristics of the ISAfe600, an insertion sequence from Acidithiobacillus ferrooxidans strains.

Author

Kondrat'eva TF, Danilevich VN, and Karavaiko GI

Subjects
Base Sequence, Molecular Sequence Data, Sequence Alignment, Terminal Repeat Sequences genetics, Acidithiobacillus genetics, DNA Transposable Elements genetics, DNA, Bacterial genetics
Abstract

A new IS-like element (604 bp) was revealed in the genome of several Acidithiobacillus ferrooxidans strains isolated from diverse biotopes. It includes 26-bp imperfectly matched terminal inverted repeats (TIRs), similar in structure to the TIRs of ISAfel insertion element. The 60-bp DNA fragment adjacent to the right TIR (TIRR) exhibits pronounced homology with the similarly located DNA fragments in ISAfel and IST445, as well as with the internal fragment of ISAfel encoding the transposase gene (nucleotides from 254 to 311 bp). The central section of ISAfe600 is unique and exhibits no homology with any prokaryotic DNA. A duplication of 8 bp of the target DNA was found in the ISAfe600 insertion site. One to four copies of ISAfe600 were revealed by Southern hybridization in the genome of A. ferrooxidans strains studied. The number of ISAfe600 copies varies depending on the growth conditions (energy substrate). Since the open reading frames big enough to encode transposase are not presert in the structure of ISAfe600, it may be a deficient IS element; its translocation is possibly achieved under control of the ISAfel transposase.

Published
2008

28. [Genotypic and phenotypic polymorphism of environmental strains of the moderately thermophilic bacterium Sulfobacillus sibiricus].

Author

Tsaplina IA, Bogdanova TI, Kondrat'eva TF, Melamud VS, Lysenko AM, and Karavaĭko GI

Subjects
Bacillus classification, Bacillus isolation & purification, Base Composition, Biodiversity, DNA, Bacterial genetics, Ferrous Compounds metabolism, Geologic Sediments microbiology, Hydrogen-Ion Concentration, Organic Chemicals metabolism, Oxidation-Reduction, Sulfates metabolism, Sulfur metabolism, Temperature, Bacillus physiology
Abstract

Five cultures of moderately thermophilic spore-forming acidophilic chemolithotrophic bacteria were isolated from the zones of spontaneous heating of pyrrhotine-containing pyrite-arsenopyrite gold-arsenic sulfide ores in an operating open pit (strains B1, B2, B3, OFO, and SSO). Analysis of the chromosomal DNA structure revealed differences between these cultures at the strain level (apart from B3 and SSO, which had identical restriction profiles). All the strains had a similar G + C DNA molar content (47.4-48.3%). The level of DNA reassociation was 85 to 95%. The similarity between the DNA of the type strain Sulfobacillus sibiricus N1 isolated from arsenopyrite ore concentrate and that of these strains (83-93%) indicates that they belong to the same species. The strains had similar values of pH and temperature optimal for growth on ferrous iron (1.6-2.0 and 45-55 degrees C, respectively). They were mixotrophs; Fe(II), S0, and sulfide minerals along with organic compounds were used as energy sources and electron donors. However, the kinetic parameters of growth and substrate oxidation varied from strain to strain. Genetic variety of the strains from diverse ecosystems and environments is possibly the result of the different rates of microevolution processes.

Published
2008

29. [Lithotrophic microorganisms of the oxidative cycles of sulfur and iron].

Author

Karavaĭko GI, Dubinina GA, and Kondrat'eva TF

Subjects
Acidithiobacillus growth & development, Acidithiobacillus metabolism, Archaea classification, Bacteria chemistry, Bacteria classification, Bacteria growth & development, Biodiversity, Carbon metabolism, Carbon Dioxide, Ecology, Oxidation-Reduction, Thiotrichaceae classification, Thiotrichaceae metabolism, Thiotrichaceae physiology, Archaea metabolism, Bacteria metabolism, Iron metabolism, Sulfur metabolism
Abstract

The review deals with sulfur bacteria (the first chemolithotrophs ever studied) and with the acidophilic bacteria of sulfur and iron cycles which were investigated as a result of Winogradsky's discovery. The diversity of these organisms and the factors and mechanism of its origin are emphasized; their metabolic functions and nutritional regulation are discussed.

Published
2006

30. [Mechanism of cyanide and thiocyanate decomposition by an association of Pseudomonas putida and Pseudomonas stutzeri strains].

Author

Grigor'eva NV, Kondrat'eva TF, Krasil'nikova EN, and Karavaĭko GI

Subjects
Ammonia metabolism, Biodegradation, Environmental, Carbon-Nitrogen Lyases metabolism, Chemical Industry, Cyanates metabolism, Soil Microbiology, Soil Pollutants, Species Specificity, Cyanides metabolism, Pseudomonas putida metabolism, Pseudomonas stutzeri metabolism, Thiocyanates metabolism
Abstract

The intermediate and terminal products of cyanide and thiocyanate decomposition by individual strains of the genus Pseudomonas, P. putida strain 21 and P. stutzeri strain 18, and by their association were analyzed. The activity of the enzymes of nitrogen and sulfur metabolism in these strains was compared with that of the collection strains P. putida VKM B-2187T and P. stutzeri VKM B-975T. Upon the introduction of CN- and SCN- into cell suspensions of strains 18 and 21 in phosphate buffer (pH 8.8), the production of NH4+ was observed. Due to the high rate of their utilization, NH3, NH4+, and CNO- were absent from the culture liquids of P. putida strain 21 and P. stutzeri strain 18 grown with CN- or SCN-. Both Pseudomonas strains decomposed SCN- via cyanate production. The cyanase activity was 0.75 micromol/(min mg protein) for P. putida strain 21 and 1.26 micromol/(min mg protein) for P. stutzeri strain 18. The cyanase activity was present in the cells grown with SCN- but absent in cells grown with NH4+. Strain 21 of P. putida was a more active CN- decomposer than strain 18 of P. stutzeri. Ammonium and CO2 were the terminal nitrogen and carbon products of CN- and SCN- decomposition. The terminal sulfur products of SCN- decomposition by P. stutzeri strain 18 and P. putida strain 21 were thiosulfate and tetrathionate, respectively. The strains utilized the toxic compounds in the anabolism only, as sources of nitrogen (CN- and SCN-) and sulfur (SCN-). The pathway of thiocyanate decomposition by the association of bacteria of the genus Pseudomonas is proposed based on the results obtained.

Published
2006

31. Sulfobacillus thermotolerans sp. nov., a thermotolerant, chemolithotrophic bacterium.

Author

Bogdanova TI, Tsaplina IA, Kondrat'eva TF, Duda VI, Suzina NE, Melamud VS, Tourova TP, and Karavaiko GI

Subjects
Base Composition, Carbohydrate Metabolism, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Environmental Microbiology, Ferrous Compounds metabolism, Genes, rRNA, Glutamic Acid metabolism, Glutathione metabolism, Gold, Gram-Positive Endospore-Forming Rods cytology, Gram-Positive Endospore-Forming Rods physiology, Hydrogen-Ion Concentration, Molecular Sequence Data, Nucleic Acid Hybridization, Oxidation-Reduction, Phylogeny, RNA, Bacterial genetics, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Sulfides metabolism, Sulfur metabolism, Temperature, Tetrathionic Acid metabolism, Gram-Positive Endospore-Forming Rods classification, Gram-Positive Endospore-Forming Rods isolation & purification
Abstract

A thermotolerant, Gram-positive, aerobic, endospore-forming, acidophilic bacterium (strain Kr1T) was isolated from the pulp of a gold-containing sulfide concentrate processed at 40 degrees C in a gold-recovery plant (Siberia). Cells of strain Kr1(T) were straight to slightly curved rods, 0.8-1.2 microm in diameter and 1.5-4.5 microm in length. Strain Kr1T formed spherical and oval, refractile, subterminally located endospores. The temperature range for growth was 20-60 degrees C, with an optimum at 40 degrees C. The pH range for growth on medium containing ferrous iron was 1.2-2.4, with an optimum at pH 2.0; the pH range for growth on medium containing S0 was 2.0-5.0, with an optimum at pH 2.5. Strain Kr1T was mixotrophic, oxidizing ferrous iron, S0, tetrathionate or sulfide minerals as energy sources in the presence of 0.02 % yeast extract or other organic substrates. The G+C content of the DNA of strain Kr1T was 48.2+/-0.5 mol%. Strain Kr1T showed a low level of DNA-DNA reassociation with the known Sulfobacillus species (11-44 %). 16S rRNA gene sequence analysis revealed that Kr1T formed a separate phylogenetic group with a high degree of similarity between the nucleotide sequences (98.3-99.6 %) and 100 % bootstrap support within the phylogenetic Sulfobacillus cluster. On the basis of its physiological properties and the results of phylogenetic analyses, strain Kr1T can be affiliated to a novel species of the genus Sulfobacillus, for which the name Sulfobacillus thermotolerans sp. nov. is proposed. The type strain is Kr1T (=VKM B-2339T=DSM 17362T).

Published
2006
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32. Identification of IS elements in Acidithiobacillus ferrooxidans strains grown in a medium with ferrous iron or adapted to elemental sulfur.

Author

Kondrat'eva TF, Danilevich VN, Ageeva SN, and Karavaiko GI

Subjects
3' Flanking Region, 5' Flanking Region, Acidithiobacillus thiooxidans growth & development, Base Sequence, Chromosomes, Bacterial genetics, Culture Media, DNA, Bacterial genetics, Ferrous Compounds, Molecular Sequence Data, Sequence Alignment, Soil Microbiology, Sulfur, Acidithiobacillus thiooxidans genetics, DNA Transposable Elements genetics, Genome, Bacterial
Abstract

IS elements were identified in the genomes of five Acidithiobacillus ferrooxidans strains isolated from various media. IST2 elements were revealed in all the strains grown in a medium with ferrous iron, ISAfe1 elements were detected in four strains (TFBk, TFL-2, TFV-1 and TFO). Three strains (TFV-1, TFN-d and TFO) were found to contain IS elements, approximately 600 bp long. These were named preliminary as ISAfe600. Partial sequencing of the 5'- and 3'-terminal nucleotide stretches of an ISAfe1 element in TFBk and TFL-2 strains and complete sequencing of the ISAfe1 element in the TFBk strain has revealed nucleotide substitutions as compared to the prototype, i.e., the ISAfe1 element of an ATCC 19859 strain. Partial sequencing of the 5'- and 3'-terminal nucleotide stretches of the IST2 elements in TFO, TFBk and TFL-2 strains has shown numerous nucleotide substitutions when compared to the IST2 element of an ATCC 19859 strain. Complete sequencing of the IST2 element in the TFBk strain has revealed: the divergence between the IST2 elements in the TFBk strain and the prototype was 21.2%. Southern hybridization of EcoRI fragments of the chromosomal DNA from five A. ferrooxidans strains grown in a medium with ferrous iron using an internal region of ISAfe1, a full-length ISAfe1 or a full-length IST2 as probes has shown them to differ in the number of copies of IS elements and their localization on the chromosomes. Adaptation to elemental sulfur in A. ferrooxidans strains caused changes in the number, intensity and localization of hybridization bands. The authors discuss the role of IS elements in the adaptation of A. ferrooxidans to the new energy substrate.

Published
2005
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33. [Dependence of the genotypic characteristics of Acidithiobacillus ferrooxidans on the physical, chemical, and electrophysical properties of pyrites].

Author

Tupikina OV, Kondrat'eva TF, and Karavaĭko GI

Subjects
Acidithiobacillus physiology, Adaptation, Physiological, Chromosomes, Bacterial genetics, Electric Conductivity, Plasmids genetics, Species Specificity, Acidithiobacillus genetics, DNA, Bacterial genetics, Iron chemistry, Iron metabolism, Sulfides chemistry, Sulfides metabolism
Abstract

This study focused on the effect of physical, chemical, and electrophysical properties of two pyrites, pyrite 1, which had hole-type (p-type) conductivity, and pyrite 2, with electron-type (n-type) conductivity, on the genotypic characteristics of Acidithiobacillus ferrooxidans strains TFV-1 and TFBk, which were isolated from different substrates. After the adaptation of the strains to the pyrites at a pulp density of 1%, pulsed-field electrophoresis revealed changes in the chromosomal DNA of strain TFV-1 adapted to pyrite 1 and strain TFBk adapted to either of the pyrite types. In pyrite-adapted strain TFBk, the plasmid composition was the same as after growth on a medium containing ferrous iron, whereas, in strain TFV-1, changes in plasmid sizes or both in plasmid sizes and plasmid number occurred. After an increase in the density of the pyrite 2 pulp from 1 to 10%, the plasmid number increased from three to four, and, after an increase in the density of the pyrite 1 pulp from 1 to 7%, the plasmid number increased from two to six.

Published
2005

34. [Dependence of the genotypic characteristics of Acidithiobacillus ferrooxidans on the physical, chemical, and electrophysical properties of pyrites].

Author

Tupikina OV, Kondrat'eva TF, Samorukova VD, Rassulov VA, and Karavaĭko GI

Subjects
Acidithiobacillus thiooxidans growth & development, Adaptation, Physiological, Electric Conductivity, Oxidation-Reduction, Acidithiobacillus thiooxidans physiology, Iron chemistry, Iron metabolism, Sulfides chemistry, Sulfides metabolism
Abstract

Comparison of Acidithiobacillus ferrooxidans strains TFV-1 and TFBk with respect to their capacity to oxidize pyrite 1, with hole-type (p-type) conductivity, or pyrite 2, with an electron-type (n-type) conductivity, showed that, at a pulp density of 1%, both before and after its adaptation to the pyrites, strain TFBk, isolated from a substrate with a more complex mineral composition, grew faster and oxidized the pyrites of both conductivity types more efficiently than strain TFV-1, which was isolated from a mineralogically simple ore. At a pulp density of 3-5%, the oxidation of pyrite 1 by strain TFV-1 and both of the pyrites by strain TFBk began only after an artificial increase in Eh to 600 mV. If the pulp density was increased gradually, strain TFBk could oxidize the pyrites at its higher values than strain TFV-1, with the rate of pyrite 2 oxidation being higher than that of pyrite 1. During chemical oxidation of both of the pyrites, an increase was observed in the absolute values of the coefficients of thermoelectromotive force (KTEMF); during bacterial-chemical oxidation, the KTEMF of pyrite 1 changed insignificantly, whereas the KTEMF of pyrite 2 decreased.

Published
2005

35. Reclassification of 'Sulfobacillus thermosulfidooxidans subsp. thermotolerans' strain K1 as Alicyclobacillus tolerans sp. nov. and Sulfobacillus disulfidooxidans Dufresne et al. 1996 as Alicyclobacillus disulfidooxidans comb. nov., and emended description of the genus Alicyclobacillus.

Author

Karavaiko GI, Bogdanova TI, Tourova TP, Kondrat'eva TF, Tsaplina IA, Egorova MA, Krasil'nikova EN, and Zakharchuk LM

Subjects
DNA, Bacterial analysis, DNA, Ribosomal analysis, Genes, rRNA, Gram-Positive Endospore-Forming Rods chemistry, Molecular Sequence Data, Nucleic Acid Hybridization, Phenotype, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Gram-Positive Endospore-Forming Rods classification, Gram-Positive Endospore-Forming Rods genetics
Abstract

Comparative analysis of 16S rRNA gene sequences, DNA-DNA hybridization data and phenotypic properties revealed that 'Sulfobacillus thermosulfidooxidans subsp. thermotolerans' strain K1 is not a member of the genus Sulfobacillus. Phylogenetically, strain K1 is closely related to unclassified strains of the genus Alicyclobacillus: the 16S rRNA gene sequence of strain K1 is similar to that of Alicyclobacillus sp. AGC-2 (99.6 %), Alicyclobacillus sp. 5C (98.9 %) and Alicyclobacillus sp. CLG (98.6 %) and bacterium GSM (99.1 %). The 16S rRNA gene sequence similarity values for strain K1 and species of the genus Alicyclobacillus with validly published names were in the range 92.1-94.6 %, and for S. thermosulfidooxidans VKM B-1269(T) the value was 87.7 %. Sulfobacillus disulfidooxidans SD-11(T) was also phylogenetically related to strain K1 (92.6 % sequence similarity) and thus belonged to the genus Alicyclobacillus. Chemotaxonomic data, such as the major cell-membrane lipid components of strains K1 and SD-11(T) (omega-alicyclic fatty acids) and the major isoprenoid quinone (menaquinone MK-7) of strain K1, supported the affiliation of strains K1 and SD-11(T) to the genus Alicyclobacillus. Physiological and molecular biological tests allowed genotypic and phenotypic differentiation of strains K1 and SD-11(T) from the nine Alicyclobacillus species with validly published names. The G+C content of the DNA of strain K1 was 48.7+/-0.6 mol%; that of strain SD-11(T) was 53+/-1 mol%. DNA-DNA reassociation studies showed low relatedness (22 %) between strains K1 and SD-11(T), and even lower relatedness (3-5 %) between these strains and Alicyclobacillus acidocaldarius subsp. acidocaldarius ATCC 27009(T), DSM 446(T). DNA reassociation of strains K1 and SD-11(T) with Alicyclobacillus cycloheptanicus DSM 4006(T) gave values of 15 and 21, respectively. Based on the phenotypic and phylogenetic characteristics of strains K1 and SD-11(T), Alicyclobacillus tolerans sp. nov. (type strain, K1(T)=VKM B-2304(T)=DSM 16297(T)) and Alicyclobacillus disulfidooxidans comb. nov. (type strain, SD-11(T)=ATCC 51911(T)=DSM 12064(T)) are proposed.

Published
2005
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36. [Interaction of chromosomal and plasmid DNA in Acidithiobacillus ferrooxidans strains adapted to different oxidation substrates].

Author

Kondrat'eva TF, Danilevich VN, Ageeva SN, and Karavaĭko GI

Subjects
Acidithiobacillus metabolism, Adaptation, Physiological, Blotting, Southern, Hybridization, Genetic, Oxidation-Reduction, Plasmids genetics, Restriction Mapping, Substrate Specificity, Acidithiobacillus genetics, Chromosomes, Bacterial genetics, DNA, Bacterial genetics
Abstract

Restriction analysis of plasmids pTFK1 and pTFK2 of the Acidithiobacillus ferrooxidans strain TFBk was carried out, and the sizes of these plasmids were determined (13.5 and 30 kb, respectively). A macrorestriction map was built for plasmid pTFK1. DNA-DNA hybridization revealed that the plasmids contained homologous nucleotide sequences. Plasmid pTFK2 labeled with 32P was used as a probe for Southern hybridization with blots of XbaI-generated fragments of the chromosomal DNA of A. ferrooxidans strains grown on a medium containing Fe2+ or adapted to different oxidation substrates. Low-intensity hybridization signals were observed for many fragments of the chromosomal DNA of the strains studied. In the process of adaptation to new oxidation substrates, the localization of bands producing the low-intensity hybridization signals changed in a number of cases. Certain fragments of the chromosomal DNA of the strains adapted to different oxidation substrates produced strong hybridization signals with pTFK2. The data obtained are discussed in terms of the possible role of IST elements and plasmids in the adaptation of A. ferrooxidans to new energy substrates, microevolution, and strain polymorphism.

Published
2004

37. [Sulfobacillus sibiricus sp. nov., a new moderately thermophilic bacterium].

Author

Melamud VS, Pivovarova TA, Turova TP, Kolganova TV, Osipov GA, Lysenko AM, Kondrat'eva TF, and Karavaĭko GI

Subjects
Bacillus cytology, Bacillus isolation & purification, Base Composition, Culture Media, DNA, Bacterial genetics, Ferrous Compounds metabolism, Molecular Sequence Data, Oxidation-Reduction, Phylogeny, RNA, Bacterial genetics, RNA, Ribosomal, 16S genetics, Siberia, Species Specificity, Sulfides metabolism, Temperature, Bacillus physiology, Metallurgy
Abstract

In the course of pilot industrial testing of a biohydrometallurgical technology for processing goldarsenic concentrate obtained from the Nezhdaninskoe ore deposit (East Siberia, Sakha, Yakutiya), a new gram-positive rod-shaped spore-forming moderately thermophilic bacterium (designated as strain N1) oxidizing Fe2+, S0, and sulfide minerals in the presence of yeast extract (0.02%) was isolated from a dense pulp. Physiologically, strain N1 differs from previously described species of the genus Sulfobacillus in having a somewhat higher optimal growth temperature (55 degrees C). Unlike the type strain of S. thermosulfidooxidans, strain N1 could grow on medium with 1 mM thiosulfate or sodium tetrathionate as a source of energy only within several passages and failed to grow, in the absence of an inorganic energy source, on media with sucrose, fructose, glucose, reduced glutathione, alanine, cysteine, sorbitol, sodium acetate, or pyruvate. The G + C content of the DNA of strain N1 was 48.2 mol %. The strain showed 42% homology after DNA-DNA hybridization with the type strain of S. thermosulfidooxidans and 10% homology with the type strain of S. acidophilus. The isolate differed from previously studied strains of S. thermosulfidooxidans in the structure of its chromosomal DNA (determined by the method of pulsed-field gel electrophoresis) which remained stable as growth conditions were changed. According to the results of the 16S rRNA gene analysis, the new strain forms a single cluster with the bacteria of the species Sulfobacillus thermosulfidooxidans (sequence similarity of 97.9-98.6%). Based on these genetic and physiological features, strain N1 is described as a new species Sulfobacillus sibiricus sp. nov.

Published
2003

38. [Plasmid profiles of Acidithiobacillus ferrooxidans strains adapted to different oxidation substrates].

Author

Ageeva SN, Kondrat'eva TF, and Karavaĭko GI

Subjects
Culture Media, Electrophoresis, Ferrous Compounds, Oxidation-Reduction, Restriction Mapping, Acidithiobacillus genetics, Adaptation, Physiological, Plasmids analysis
Abstract

Plasmid profiles were studied in five Acidithiobacillus ferrooxidans strains of various origin cultivated on medium with Fe2+, as well as adapted to such oxidation substrates as S0, FeS2, and sulfide concentrate. The method used revealed plasmids in all A. ferrooxidans strains grown on medium with Fe2+. One plasmid was found in strain TFL-2, two plasmids, in strains TFO, TFBk, and TFV-1, and three plasmids were detected in strain TFN-d. The adaptation of strain TFN-d to sulfide concentrate and the adaptation of strain TFV-1 to S0, FeS2, or sulfide concentrate resulted in a change in the number of plasmids occurring in cells. In cells of strain TFN-d adapted to sulfide concentrate, the number of plasmids decreased from three to two. The number of plasmids in cells of strain TFV-1 adapted to different substrates varied from three to six depending on the energy source present in the medium: three plasmids were found after growth on FeS2, four after growth on S0, and six after growth on sulfide concentrate. The possible role of plasmids in the adaptation of A. ferrooxidans to new energy substrates and in the regulation of the intensity of their oxidation is discussed.

Published
2003

39. Phylogenetic heterogeneity of the species Acidithiobacillus ferrooxidans.

Author

Karavaiko GI, Turova TP, Kondrat'eva TF, Lysenko AM, Kolganova TV, Ageeva SN, Muntyan LN, and Pivovarova TA

Subjects
Base Composition, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal genetics, Ecosystem, Electrophoresis, Gel, Pulsed-Field, Genome, Bacterial, Minerals, Molecular Sequence Data, Phylogeny, RNA, Bacterial genetics, RNA, Ribosomal, 16S genetics, Thiobacillus isolation & purification, Thiobacillus classification, Thiobacillus genetics
Abstract

Polyphasic genotypic analysis of 25 Acidithiobacillus ferrooxidans strains isolated from ores and ore concentrates collected in different regions of the world showed considerable strain heterogeneity. Restriction patterns of the chromosomal DNA of these strains obtained by PFGE were specific for each strain. According to the degree of DNA relatedness, 17 of the 23 strains studied were divided into four genomovars. Six independent, considerably divergent strains could not be assigned to any of the genomovars. A comparison of nearly complete nucleotide sequences of the 16S rDNA of five representatives of the genomovars (including the type strain of A. ferrooxidans, ATCC 23270T) with those of species of the genus Acidithiobacillus available from GenBank showed that most of the A. ferrooxidans strains, together with the type strain and some other strains of the species Acidithiobacillus thiooxidans, comprised a monophyletic cluster. Within this major cluster, A. ferrooxidans strains fell into four phylogenetic groups that were equidistant from the phylogenetic group of A. thiooxidans strains. In general, the distribution of strains among the phylogenetic groups correlated with their distribution among the genomovars, except that the representatives of two different genomovars fell into one phylogenetic group. Thus, at least two levels of phylogenetic heterogeneity for A. ferrooxidans have been found. The phylogenetic heterogeneity of A. ferrooxidans strains, which are phenotypically indistinguishable, suggests the occurrence of microevolutionary processes in different econiches. This should be taken into account in the biohydrometallurgical applications of A. ferrooxidans strains.

Published
2003
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40. [Phenotypic features of Ferroplasma acidiphilum strains Yt and Y-2].

Author

Pivovarova TA, Kondrat'eva TF, Batrakov SG, Esipov SE, Sheĭchenko VI, Bykova SA, Lysenko AM, and Karavaĭko GI

Subjects
Base Composition, Carbon Dioxide metabolism, Chromosomes, Archaeal genetics, DNA, Archaeal analysis, DNA, Archaeal chemistry, DNA, Archaeal genetics, Ferrous Compounds metabolism, Geologic Sediments microbiology, Glycolipids chemistry, Hydrogen-Ion Concentration, Iron metabolism, Kazakhstan, Lipids analysis, Lipids chemistry, Phenotype, Restriction Mapping, Russia, Sequence Homology, Nucleic Acid, Species Specificity, Sulfides metabolism, Temperature, Thermoplasmales cytology, Thermoplasmales physiology, Environmental Microbiology, Thermoplasmales isolation & purification
Abstract

Earlier, we described a new family of mesophilic, strictly autotrophic Fe(2+)-oxidizing archaebacteria, Ferroplasmaceae, which belongs to the order Thermoplasmales and includes the genus Ferroplasma and species F. acidiphilum (strain YT) [1]. The present work is concerned with a comparative study of phenotypic characteristics of the type strain YT and a new strain, F. acidiphilum Y-2, isolated from dense pulps produced during oxidation of arsenogold concentrates from the Bakyrchikskoe (Kazakhstan) and Olimpiadinskoe (Krasnoyarsk Krai) ore deposits, respectively. The G + C content of DNA from strains YT and Y-2 comprised 35.1 and 35.2 mol%, respectively; the level of DNA-DNA homology between the strains was 84%. Restriction profiles of chromosomal DNA from both strains exhibited a similarity coefficient of 0.87. Genotypic characteristics of these strains indicate their affiliation to the same species. The cells of both strains are polymorphic and lack cell walls. Strains of F. acidiphilum oxidized ferrous oxide and pyrite as the sole source of energy and fixed carbon dioxide as the sole carbon source. Strains required yeast extract as a growth factor. Optimum pH for cell growth ranged from 1.7 to 1.8; the temperature optima for the growth of strains YT and Y-2 were 34-36 and 40-42 degrees C, respectively. Comparative analysis of total lipids revealed their close similarity in the strains; two glycophospholipids comprised 90% of total lipids: lipid I, beta-D-glucopyranosylcaldarchaetidylglycerol (about 55%), and lipid II, trihexosylcaldarchaetidylglycerol (26%), whose isopranyl chains contained no cyclopentane rings. The carbohydrate fraction of lipid I hydrolysate contained only D-glucose, whereas hydrolysate of lipid II contained both D-glucose and D-galactose in a molar ratio of 2:1. Thus, it was established that the intraspecific phylogenetic divergence within F. acidiphilum is manifested in two the strains by different temperature optima against the background of similarity in other phenotypic properties.

Published
2002

41. [Characteristics of the restriction profile of chromosomal DNA in strains of Acidithiobacillus ferroxidans, adapted to various oxidation substrates].

Author

Kondrat'eva TF, Ageeva SN, Pivovarova TA, and Karavaĭko GI

Subjects
DNA, Bacterial metabolism, Electrophoresis, Gel, Pulsed-Field, Oxidation-Reduction, Restriction Mapping, Thiobacillus physiology, Adaptation, Physiological, DNA, Bacterial genetics, Thiobacillus genetics
Abstract

Restriction profiles of chromosomal DNA were studied in different Acidithiobacillus ferrooxidans strains grown on medium with Fe2+ and further adapted to another oxidation substrate (S0, FeS2, or sulfide ore concentrates). The restriction endonuclease XbaI digested the chromosomal DNA from different strains into different numbers of fragments of various sizes. Adaptation of two strains (TFBk and TFN-d) to new oxidation substrates resulted in structural changes in XbaI-restriction patterns of their chromosomal DNA. Such changes in the DNA restriction patterns occurred in strain TFBk after the adaptation to precyanidated gravitational pyrite-arsenopyrite concentrate (no. 1) from the Nezhdaninskoe deposit or to copper-containing ore from the Udokanskoe deposit and also in strain TFN-d adapted to untreated pyrite-arsenopyrite concentrate (no. 2) from the Nezhdaninskoe deposit. No changes in the number or size of the XbaI-restriction patterns of chromosomal DNA were revealed in either strain TFBk cultivated on media with pyrite from the Angren and Tulun deposits or in strains TFN-d and TFO grown on media with S0 and pyrite. Neither were changes observed in the XbaI-restriction patterns of the DNA from strain TFV-1, isolated from the copper ore of the Volkovskoe deposit, when Fe2+ was substituted with alternative substrates--S0, pyrite or concentrate no. 2 from the ore of Nezhdaninskoe deposit. In strain TFO, no differences in the XbaI-restriction patterns of the chromosomal DNA were revealed between the culture grown on medium containing concentrate no. 2 or the concentrate of surface-lying ore from Olimpiadinskoe deposit and the culture grown on medium with Fe2+. When strain TFO was cultivated on the ore concentrate from deeper horizons of the Olimpiadinskoe deposit, which are characterized by lower oxidation degree and high antimony content, mutant TFO-2 differing from the parent strain in the chromosomal DNA structure was isolated. The correlation between the lability of chromosomal DNA structure in A. ferrooxidans strains and the physical and chemical peculiarities of the isolation substrate and habitat is discussed.

Published
2002

42. [Strain polymorphism of the plasmid profiles in Acidithiobacillus ferrooxidans].

Author

Kondrat'eva TF, Ageeva SN, Muntian LN, Pivovarova TA, and Karavaĭko GI

Subjects
Drug Resistance, Microbial, Environmental Microbiology, Gram-Negative Chemolithotrophic Bacteria drug effects, Gram-Negative Chemolithotrophic Bacteria metabolism, Metals, Heavy pharmacology, Oxidation-Reduction, Plasmids chemistry, Sulfites, Gram-Negative Chemolithotrophic Bacteria genetics, Plasmids analysis
Abstract

Plasmid profiles were studied in 27 Acidithiobacillus ferrooxidans strains isolated from different geographic zones and substrates differing in the composition of the main sulfide minerals, and also in experimentally obtained strains with acquired enhanced resistance to the ions of heavy metals (Fe, Ni, Cu, Zn, As). In 16 out of 20 strains isolated from different substrates, one to four 2- to 20-kb and larger plasmids were revealed. Plasmids were found in all five strains isolated from gold-containing pyrite-arsenopyrite ores and concentrates, in nine of 11 strains isolated from the ores and concentrates containing nonferrous metals, and in two of four strains isolated from the oxidation substrates of simple composition (mine waters, pyritized coals, active sludge). Changes in the plasmid profiles in some A. ferrooxidans strains (TFZ, TFI-Fe, TFV-1-Cu) with experimentally enhanced resistance to Zn2+, Fe3+, and Cu2+, respectively, were noted as compared with the initial strains. After 30 passages on S0-containing medium, strain TFBk showed changes in the copy number of plasmids. The role of plasmids in the processes of oxidation of energy substrates and in the acquired enhanced resistance to the heavy metal ions is discussed.

Published
2002

43. [Phenotypic characteristics of Thiobacillus ferrooxidans strains].

Author

Ageeva SN, Kondrat'eva TF, and Karavaĭko GE

Subjects
Evolution, Molecular, Genetic Variation, Phenotype, Polymorphism, Genetic, Thiobacillus physiology
Abstract

Phenotypic polymorphism of strains of Thiobacillus ferrooxidans isolated from various ecological niches was studied. The strains differed both in rates of growth and oxidation of Fe2+, S0, FeS2, and sulfide minerals contained in concentrate. Each strain, irrespective of its original environment, required a period of adaptation to a new substrate. Strains TFN-d, TFBk, TFO, and TFL-2, isolated from ores and concentrates rich in oxidized substrates, showed an equal adaptation pace (five culture transfers) but differed in their adaptation efficiency. Strain TFV-1, isolated from base ore and showing the lowest rates of growth and oxidation of all the substrates, required five culture transfers to adapt to S0 and FeS2 and seven culture transfers to adapt to the concentrate. It is concluded that the phenotypic properties of the strains correlate with their genotypic polymorphism and the environmental conditions under which their microevolution took place.

Published
2001

44. [Microbial destruction of cyanide and thiocyanate].

Author

Karavaĭko GI, Kondrat'eva TF, Savari EE, Grigor'eva NV, and Avakian ZA

Subjects
Biodegradation, Environmental, Cyanides metabolism, Pseudomonas metabolism, Thiocyanates metabolism
Abstract

The role played by a bacterial community composed of Pseudomonas putida, strain 21, Pseudomonas stutzeri, strain 18, and Pseudomonas sp., strain 5, and by physical and chemical factors in the degradation of CN- and SCN- was studied. It was shown that the degradation of CN- is determined both by the action of bacteria and by abiotic physical and chemical factors (pH, O2, temperature, the medium agitation rate, etc.). The contribution of chemical degradation was found to increase drastically at pH below 9.0; when air was blown through the medium (irrespective of the pH value); under active agitation of the medium; and when the medium surface interfacing air was increased. Even at elevated pH values (9.0-9.2), suboptimal for bacterial growth, the microbial degradation could account for at most 20-25 mg/l of CN-, regardless of its initial concentration. When CN- and SCN- were concurrently present in the medium, the former compound was the first to be degraded by microorganisms. The rate of bacterial degradation of SCN- under continuous cultivation in a chain of reactors was found to depend on its concentration, the medium flow rate, agitation rate, and the pattern of carbon source supply and could exceed 1 g/(1 day). CN- and SCN- are utilized by bacteria solely as nitrogen sources. The mechanism of CN- and SCN- degradation by the microbial community is discussed.

Published
2000

46. [Restriction analysis of Thiobacillus ferrooxidans DNA using pulsed field electrophoresis].

Author

Kondrat'eva TF and Karavaĭko GI

Subjects
Electrophoresis, Gel, Pulsed-Field, Genes, Bacterial, Restriction Mapping, DNA, Bacterial genetics, Thiobacillus genetics
Abstract

The DNA of Thiobacillus ferrooxidans digested by any of the five restriction endonucleases (DraI, EcoRI, Eco321, HindIII, XbaI) was studied by electrophoresis in the pulsating differently directed electric fields (PF). The influence of PF conditions on the sized row of the divided DNA fragments was studied. Only the XbaI restriction endonuclease was shown to cleave the Thiobacillus ferrooxidans DNA into a number of fragments permitting one to define the sizes of fragments and genome (no more than 2300 bp). The prospects of using the restriction analysis of Thiobacillus ferrooxidans wild type culture for improving its properties in obtaining heavy metals are discussed.

Published
1992

47. [The use of pulsed field electrophoresis using diversely directed electrical fields for establishing the degree of similarity of three Pseudomonas cultures].

Author

Kondrat'eva TF

Subjects
DNA, Bacterial analysis, Electrophoresis, Gel, Pulsed-Field methods, Pseudomonas classification
Abstract

It has been shown that from the group of three restriction endonucleases (XbaI, Uba 78I, DraI) only XbaI digests the native Pseudomonas genomic DNA into the number of fragments, sufficient for their comparative analysis. Optimal electrophoresis conditions were adjusted for the better DNA restricts separation. Each Pseudomonas culture gives unique patterns of DNA restriction. The calculation of the conservative fragments fraction content in the samples led us to the conclusion that P. fluorescens differs equally from both P. fluorescens 80 and P. alcaligenes. The P. fluorescens 80 DNA contains a relatively larger number of fragments equal in size with those of P. alcaligenes DNA, than DNA of P. fluorescens. We have concluded that the systematics of the Pseudomonas genus is still imperfect and that the analysis of DNA restriction patterns is necessary for the estimation of the similarity level of cultures studied.

Published
1992

49. [Frequency of formation of mutants resistant to nystatin in polyploid strains of Candida scottii].

Author

Imshenetskiĭ AA and Kondrat'eva TF

Subjects
Candida radiation effects, Candida ultrastructure, Drug Resistance, Microbial, Mutation, Ploidies, Ultraviolet Rays, Candida drug effects, Nystatin pharmacology
Abstract

Polyploid strains of Candida scottii differ by their susceptibility to the action of nistatin. Haploid strain is most resistant, diploid strain is less resistant than haploid strain, and triploid strain is more susceptible than diploid strain. UV-treatment resulted in mutants which were 1.5--2 times more resistant to the action of nistatin than parent forms. The frequency of nistatin-resistant mutants increases with the ploidity of the cultures and with the doses of UV-irradiation.

Published
1977

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