Within the Transbaikalian region, a specific type of tectonic structures formed under extension conditions was identified. According to the features of formation, these structures correspond to the ...metamorphic core complexes of the Cordilleran type 14 and occur in the morphological structure of the region as linear uplifts of northeast strike and basins comple mentary to them filled with late volcanicsedimentary strata. These structures were identified based on syn thesis of data obtained as a result of comprehensive studies (petrological, isotopegeochemical, geochro nological, structuralkinematic, and partially geo physical) of metamorphic and igneous complexes.
This paper reports the results of Rb-Sr,
40
Ar-
39
Ar, and U-Pb geochronological investigations for igneous and metamorphic rocks from the regions of the Oshurkovo basic massif. It was shown that the ...gabbro-syenite-granite complex that was formed there is similar to the bimodal basalt-rhyolite series of volcanic associations. Three major stages of magmatic activity were recognized: syenite-granite (132–127 Ma), basic (126–117 Ma), and granite (121–112 Ma). The silicic igneous rocks were formed owing to anatexis under the influence of heat released from the parent chamber of alkaline gabbroids.
Three different types of cells, Pseudomonas fluorescens HK44, Saccharomyces cerevisiae strain SP4 and plant cells Nicotiana tabacum L. BY-2, were immobilized by entrapment in tetramethoxysilane ...prepolymer (TMOS) gel or in composite gel containing prepolymer TMOS and alginate in various ratios. Their growth and viability were monitored by bioluminescence and 2-D fluorescence spectra, which are fast and do not need the dissolution of a matrix. The resulting biocomposite gels were obtained by gelation of the mixtures of TMOS prep. or TMOS/alginate sols and the particular cells in proper media on glass supports to provide films ∼1 mm thick. The effect of the following parameters on the growth and viability of the cells was studied: (a) the composition of the biocomposites, (b) the preparation conditions of TMOS and (c) the conditions of the procedure of entrapment. All three types of cells were tested in TMOS gel and the composite TMOS/alginate = 1:1 (v/v). The sensitivity of the cells to the changes of conditions increased in the sequence: P. fluorescence HK44 < S. cerevisiae strain SP4 < N. tabacum L. BY-2. Cell viability decreased with the increasing content of Si in biocomposites. The entrapment into alginate–silica composites resulted in the leakage of microbial and yeast cells. However, it had positive effects on the growth and metabolic activity of plant cells.
New major and trace element and Nd-Sr isotope results are reported for the carbonatites of the Veseloe and Pogranichnoe occurrences, Northern Transbaikalia. The carbonatites from both these ...occurrences are enriched in Sr, Ba, LREE, Th, U, and depleted in Ti, Cr, and V relative to primitive mantle. As compared to the “average dolomite carbonatite”, the rocks from the Northern Transbaikalia have higher contents of Ni, Cr, and low contents of Ba, Ti, and V. The rocks are characterized by
87
Sr/
86
S in the range of 0.7037–0.7043 and ɛNd from + 0.6 to + 2.05. Obtained geochemical and isotope data indicate that the carbonatites were derived from moderately depleted source with a contribution of enriched component.
This paper reports the results of isotopic investigations of the rocks of the Khalyuta carbonatite complex (carbonatites, comagmatic silicate rocks, fenites, and hydrothermal rocks) and host ...limestones and granites. Pyroxene, amphibole, magnetite, potassium feldspar, apatite, phlogopite, calcite, dolomite, strontianite, celestite, and barite were investigated. The isotopic compositions of C, O, Sr, and S were analyzed. The character of the distribution of oxygen isotopic composition in minerals (carbonates, silicates, phosphates, and oxides) suggests their equilibrium formation. It was supposed that the evolutionary trend of C and O isotopic compositions is mainly related to the processes of differentiation in the melt-fluid system and indicates the absence of significant contamination by carbon and oxygen from a crustal source during rock formation from the magmatic stage to the hydrothermal stage. The isotopic compositions of S and Sr did not change.
A bioluminescent bioreporter for the detection of the microbial volatile organic compound p-cymene was constructed as a model sensor for the detection of metabolic by-products indicative of microbial ...growth. The bioreporter, designated Pseudomonas putida UT93, contains a Vibrio fischeri luxCDABE gene fused to a p-cymene/p-cumate-inducible promoter derived from the P. putida F1 cym operon. Exposure of strain UT93 to 0.02-850 ppm p-cymene produced self-generated bioluminescence in less than 1.5 h. Signals in response to specific volatile organic compounds (VOCs) such as m- and p-xylene and styrene, also occurred, but at two-fold lower bioluminescent levels. The bioreporter was interfaced with an integrated-circuit microluminometer to create a miniaturized hybrid sensor for remote monitoring of p-cymene signatures. This bioluminescent bioreporter integrated-circuit device was capable of detecting fungal presence within approximately 3.5 h of initial exposure to a culture of p-cymene-producing Penicillium roqueforti.
Multiage plutonic, volcanoplutonic formations, and rocks of sedimentary basins are distinguished within the MongoliaOkhotskii foldbelt (MOFB). Many problems of the formation of this belt have not yet ...been solved, which is mainly explained by the deficiency of geochronological and isotope geochemical data. In particular, information on the age of metamorphic rocks distinguished in its structure is insufficient.
The bioluminescent-bioreporter integrated circuit represents a new advance in the development of whole-cell biosensors, consisting of a genetically engineered bioreporter organism interfaced with an ...integrated circuit. The bioreporter is engineered to luminesce when a targeted substance is encountered, with the circuit being designed to detect this luminescence, process the signal and communicate the results. The bioreporters are thus available to the circuit designer as another component, analogous to a transistor or a resistor, albeit a living entity. The concept has been demonstrated using
Pseudomonas putida TVA8 to sense the environmental pollutant toluene.
A bioluminescent reporter strain, Acinetobacter sp. DF4-8, was constructed for the detection of phenol by inserting a mopR-like promoter upstream of the Vibrio fischeri bioluminescent luxCDABE gene ...cassette in a modified mini-Tn5 construct. When introduced into the chromosome of Acinetobacter sp. DF4, the bioreporter produced a sensitive bioluminescent response to phenol at concentrations ranging from 2.5 to 100 ppm. This response was linear (R(2)=0.986) in the range from 20 to 90 ppm. A significant bioluminescent response was also recorded when strain DF4-8 was incubated with slurries from aged, phenol-contaminated soil.
Pseudomonas fluorescens HK44 is a lux-based bioluminescent bioreporter capable of emitting light upon exposure to naphthalene, salicylate, and other substituted analogs. The bacterium was inoculated ...into intermediate-scale field lysimeters and population dynamics were monitored with time. Two methods were used to enumerate cell numbers in soil: a standard selective plating technique with colony hybridization verification and a modified lux-based most-probable-number (lux-MPN) assay based on the detection of bioluminescence. The lux-MPN assay was developed and evaluated as a possible supplement or replacement for the labor-intensive and time-consuming selective plating assay. Comparisons between selective plate counts and lux-MPN population estimates showed similar trends over the 2-year study, except that lux-MPN estimates were consistently less than selective plate counts. Verification of P. fluorescens HK44 genotype through colony hybridization techniques revealed that selective plating was actually overestimating HK44 populations and that lux-MPN values were more closely approximating true HK44 cell densities, except within the first few weeks after inoculation, when lux-MPN estimates underrepresented population densities. Thus, utilizing bioluminescence as a population monitoring tool for lux-based microorganisms was shown to be more effective and precise than standard selective plating techniques, and provided an accurate ecological analysis of P. fluorescens HK44 population dynamics over an extended period.