Highly purified DNA-containing cell envelopes from fungi for direct use in PCR.

Efficient DNA sample preparation from fungi with the rigid cell walls is still critical for successful polymerase chain reaction (PCR), one of the basic platforms in molecular diagnostics of fungi, especially in medical mycology. Common methods that involve different chaotropes to yield DNA samples have found a limited application for fungi. Here we describe a novel procedure for efficient production of permeable fungal cell envelopes with DNA inside as suitable templates for PCR.

Ribonucleic acid (RNA) condensation by thermal cycling with metal cations: yield of nanoparticles and their applicability for transfection.

To the present, different efficient but expensive, multistage, and time-consuming technologies have been developed to deliver ribonucleic acids (RNA) into eukaryotic cells. Here, we report a simple and feasible solution to design RNA nanocarriers based on nucleic acid condensation by bi- and trivalent metal ions during thermal cycling. Efficient RNA conversion to nanoparticles with small size (10-50 nm) suitable for transfection was achieved using cations Ni, Co or Cu alone or in combination with Ca at the specially selected concentrations (2.

Preparation and Properties of Nanoparticles, tRNA-Bivalent Metal Cation (Me) Complexes, and Prospects of Their Practical Use.

The patterns of formation of RNA nanoparticles (NPs) during thermal cycling of bacterial total tRNA in the presence of cations Ca, Mn, Ni, Zn, Co, and Cu were studied. The optimal conditions for the production of NPs were found, and it was revealed that their size depends on the ratio of the concentrations of Me and tRNA. The concentration of reagents for obtaining NPs of small size (from 5 to 100 nm) was selected.

Structural variability of DNA-containing Mg-pyrophosphate microparticles: optimized conditions to produce particles with desired size and morphology.

Our previous studies demonstrated the formation of structurally diverse DNA-containing microparticles (DNA MPs) in PCR with Mg-pyrophosphate (MgPPi) as the structure-forming component. These DNA MPs were referred to major structural types: microdisks (2D MPs) with nanometer thickness and 3D MPs with sophisticated morphology and constructed from intersecting disks and their segments. Little is known about factors that influence both the morphology and size of DNA MPs, and the present study was aimed at fulfilling this gap.

The structure-forming role of magnesium pyrophosphate in the formation of DNA-containing microparticles during PCR.

This work is devoted to studying the mechanisms of formation of DNA-containing microparticles (MPs) during PCR. It was found that pyrophosphate, a byproduct of DNA synthesis, and magnesium cations are required for their formation, as evidenced by the results of biochemical and electron microscopy studies.

New insight into formation of DNA-containing microparticles during PCR: the scaffolding role of magnesium pyrophosphate crystals.

This work aims to study molecular mechanisms involved in the formation of DNA-containing microparticles and nanoparticles during PCR. Both pyrophosphate and Mg(2+) ions proved to play an important role in the generation of DNA microparticles (MPs) with a unique and sophisticated structure in PCR with Taq polymerase. Thus, the addition of Tli thermostable pyrophosphatase to a PCR mixture inhibited this process and caused the destruction of synthesized DNA MPs.

The structural peculiarities of condensed DNA micro- and nanoparticles formed in PCR.

Studies of DNA condensation have opened new perspectives in biotechnology and medicine. DNA condensation induced by polyamines or trivalent metal ions in vitro at room temperature has been investigated in detail. Our recent studies have demonstrated Mg(2+)-mediated formation of DNA condensates during the PCR.

[Condensed DNA particles formed in PCR with plasmid DNA: electron microscopy study].

An electron microscopy study of large-sized DNA microparticles produced in PCR with different gene-specific primers and plasmid DNAs is described. DNA microspheres of two distinct types were revealed in the all studied samples, namely smooth moderately electron-dense microspheres, and highly electron-dense particles with large thorns and offshoots. Singular microspheres have the average diameter of 1 mum, and their aggregates were up to 3 mum in dimensions.

[Micro- and nanoparticles of condensed DNA formed in a PCR with yeast genomic DNA as a template. Electron microscopy data].

It has been previously found that in a PCR with yeast genomic DNA as a template, microparticles of condensed DNA are formed in the presence of KlenTaq polymerase. In the present work, the study of these microparticles was continued using electron microscopy. It was shown that along with standard electron-dense microspheres, microspheres of a low electron density with a few thorns or without any thorns are formed.

[Microparticles from coupled DNA formed in the process of polymerase chain reaction].

DNA microparticle formation in the course of a polymerase chain reaction (PCR) is reported. PCR with gene-specific and partially complementary primers and yeast genomic DNA as a template was shown to yield spherical DNA-composed microparticles as well as their aggregates and conglomerates, along with routine linear DNA. Microparticles were formed at late PCR stages and could be easily identified by the reaction with fluorescently labeled oligonucleotide primers or by staining of the PCR mixture with fluorescent dyes (acridine orange, propidium iodide or DAPI).

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

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).

[Obtaining and characterization of DNA-containing micromummies of yeasts and gram-positive bacteria with enhanced cell wall permeability: application in PCR].

The procedure of obtaining DNA-containing cell envelopes ("micromummies") of bacteria, yeasts, and fungi using chaotropic salts has been developed previously and the possibility of their direct application in PCR has been demonstrated. The fine structure of micromummies has been studied by electron microscopic methods. This work has demonstrated that additional treatment of micromummies of yeasts and gram-positive bacteria with proteinase K results in hydrolytic degradation of cell proteins and drastic enhancement of cell wall permeability for macromolecules (DNA).

[Rapid and efficient extraction of soluble proteins from gram-negative microorganisms without disruption of cell walls].

The ability of buffer solutions containing low concentrations of nonionic detergents (Triton X-100, Tween 20, Brij 58, and Lubrol PX) and the anionic detergent sodium deoxycholate, as well as mixtures of these detergents with chaeotropes (urea and guanidine hydrochloride), to extract intracellular proteins of Gram-negative microorganisms (Escherichia coli and Pseudomonas aeruginosa) was studied. It was established that the solutions containing Triton X-100 and sodium deoxycholate and the mixtures of these detergents with urea are the most effective. It was shown that the extraction of proteins from bacterial cells under the studied conditions is not accompanied by a release of DNA into solution but is associated with extraction of low-molecular RNAs.

[Fluorescence microscopic study of the microorganisms treated with chaotropic agents].

The yeasts Saccharomyces cerevisiae and Pichia pastoris and the bacteria Micrococcus luteus, Bacillus subtilis, and Anaerobacter polyendosporus have been treated with the chaotropic agents guanidine hydrochloride and guanidine thiocyanate and certain detergents and studied using fluorescence microscopy. Studies with the use of fluorochromes that can selectively stain nucleic acids (diamidino-2-phenylindole (DAPI), propidium iodide, and acridine orange) show that treatment of the bacterial and yeast cells at 37 degrees C for 3-5 h induces a release of DNA from the cytoplasm and its accumulation in the cellular zone, known as ectoplasm, located between the cell wall and the remainder of the cytoplasm (called endoplasm) in the form of one or several large granules. After treating the cells with the chaotropic agents at 100 degrees C for 5-6 min, the DNA is diffusively distributed over the ectoplasm.

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

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.

[Alternative splicing of pre-mRNA encoding the Musca domestica latrophilin-like protein(LLP): primary structures of four spliced forms of mRNA and their protein products].

An internal DNA fragment (approximately 2000 bp) homologous to the conserved regions of genes encoding latrophilin-like proteins (LLPs) was obtained by the PCR technique using degenerate primers to these gene regions. The gene-specific primers were synthesized based on the results of sequencing of the isolated fragment, and all overlapping cDNA fragments of the llp gene encoding the Musca domestica LLP were obtained by the rapid amplification of cDNA 5'- and 3'-ends (5'- and 3'-RACE). Four alternatively spliced mRNAs were found while sequencing the obtained cDNA fragments.

[Changes in the fine structure of microbial cells induced by chaotropic salts].

The electron microscopic examination of the thin sections of cells of the yeasts Saccharomyces cerevisiae and Pichia pastoris and the gram-positive bacteria Micrococcus luteus and Bacillus subtilis showed that cell treatment with the chaotropic salts guanidine hydrochloride (6 M) and guanidine thiocyanate (4 M) at 37 degrees C for 3-5 h or at 100 degrees C for 5-6 min induced degradative processes, which affected almost all cellular structures. The cell wall, however, retained its ultrastructure, integrity, and rigidity, due to which the morphology of cells treated with the chaotropic salts did not change. High-molecular-weight DNA was localized in a new cell compartment, ectoplasm (a peripheral hydrophilic zone).

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

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.