Interhemispheric interactions in right- and left-handed individuals based on EEG coherence data

The functions of interhemispheric EEG coherence were analyzed in 12 healthy subjects with the right individual profile of motor and sensor asymmetry and 7 subjects with the left profile in 2 experimental conditions: the state of rest and photostimulation of the central visual field. It was shown that in the rest condition the right-handed subjects have the higher values of EEG coherence in the thetal band in symmetrical frontal and central areas than the left-handed. These differences decreased for the frontal and central areas during activation caused by photostimulation but increased in the theta 2 and betal bands in symmetrical temporal areas (the coherence in the left-handed being higher). The difference in the EEG coherence between conditions was greater for the frontal and central areas in the right-handed than in the left-handed, especially, for the theta 1 and theta 2 bands. These findings suggest that the left-handed subjects have a less developed hierarchy of subcortical control of the functional state shifts than the right-handed.     

Hydrophobic formate dehydrogenase from Pseudomonas sp. 101 in the system of reverse micelles of aerosol OT in octane

NAD(+)-dependent formate dehydrogenase (FDH) was hydrophobized with palmitoyl chloride to give the samples with various modification degrees (2-10). The native and modified FDHs were comparatively studied in the system of reverse micelles of Aerosol OT in octane. Like the native, the modified enzyme displayed three maxima in the curve of dependence of its catalytic activity on the degree of surfactant hydration (the micelle size), which reflect the enzyme functioning in the form of a monomer, dimer, or octamer. The peak corresponding to the functioning of the FDH dimer was found to decrease along with an increase in the modification degree. Thus, the modified enzyme mainly functions in the form of monomer and octamer. The modified FDH displayed membranotropy and revealed the dependence of catalytic activity on surfactant concentration.     

Molecular-physiological aspects of peptide regulation of the function of the retina in retinitis pigmentosa

Peptide bioregulators promote restoration of the physiological activity of the retina in retinitis pigmentosa in older adults and in animal models. The molecular mechanism of the physiological activity of peptides is associated with their ability to epigenetically regulate the synthesis of protein markers of the differentiation of retinal neurons and pigment epithelium.     

Estimation of transfer of technogenic radionuclides in food chains of the Yenisei river

The efficiency of the transfer of gamma-emitting radionuclides in food chains, including macrophytes, zoobenthos, and bentho- and ichthyophagist fish, was estimated in the radiation-polluted region of the Yenisei river. Significant differences in the efficiency of the transfer of natural and technogenic radionuclides between components of different trophic levels were revealed. Substantial species-related differences in the accumulation of radionuclides in ichthyophagist fish from food were revealed.     

Electron microscopic study of the interaction of shigellae with cell cultures. III. Functional-structural changes in transplanted amniotic cells exposed to extracellular Flexner shigellae]

A quantitative changes of RNA and proteins and structural peculiarities of compensative-regenerative character were discovered in amnion cells subjected to the action of extracellular virulent shigellas by means of successive cytophotometry and electron microscopy. The long contact with the bacteria lead to increased degenerative changes in the cell cytoplasm. The arising changes seem to involve toxicity caused by the action of exometabolites of Shigella flexneri.     

Phenomenon of selective staining of pericentromeric heterochromatin regions in chromosomes from spontaneously dividing cells by the acridine orange fluorochrome

A novel phenomenon of unusual selective acridine orange (AO) staining of pericentromeric heterochromatin regions (HRs) in chromosomal preparations from tissue with known spontaneous mitotic activity (chorionic villi, placenta, embryonic tissues, bone marrow, and testes), as well as embryonic stem cells, is described. Staining with 0.01% AO in a citric-phosphate (pH 5.5) or sodium phosphate (pH 7.0) buffer solution allows the HRs of human chromosomes (1q12, 9q12, 13p11.2, 14p11.2, 15p11.2, 16q11.2, 21p11.2, 22p11.2, and Yq12) and pericentromeric HRs of mouse chromosomes to be reliably detected by the red fluorescence of AO. This method of AO staining does not require any pretreatment. Explanations for metachromatic AO staining of polymorphic pericentromeric HRs in chromosomes of spontaneously dividing cells are suggested. A high reproducibility of the specific AO staining makes it possible to suggest its using as a reliable quick method for detection of polymorphic HRs of human chromosomes in cytogenetic prenatal diagnosis and oncohematology.     

On the role of the mitochondrial 2-oxoglutarate dehydrogenase complex in amino acid metabolism

Mitochondria are tightly linked to cellular nutrient sensing, and provide not only energy, but also intermediates for the de novo synthesis of cellular compounds including amino acids. Mitochondrial metabolic enzymes as generators and/or targets of signals are therefore important players in the distribution of intermediates between catabolic and anabolic pathways. The highly regulated 2-oxoglutarate dehydrogenase complex (OGDHC) participates in glucose oxidation via the tricarboxylic acid cycle. It occupies an amphibolic branch point in the cycle, where the energy-producing reaction of the 2-oxoglutarate degradation competes with glutamate (Glu) synthesis via nitrogen incorporation into 2-oxoglutarate. To characterize the specific impact of the OGDHC inhibition on amino acid metabolism in both plant and animal mitochondria, a synthetic analog of 2-oxoglutarate, namely succinyl phosphonate (SP), was applied to living systems from different kingdoms, both in situ and in vivo. Using a high-throughput mass spectrometry-based approach, we showed that organisms possessing OGDHC respond to SP by significantly changing their amino acid pools. By contrast, cyanobacteria which lack OGDHC do not show perturbations in amino acids following SP treatment. Increases in Glu, 4-aminobutyrate and alanine represent the most universal change accompanying the 2-oxoglutarate accumulation upon OGDHC inhibition. Other amino acids were affected in a species-specific manner, suggesting specific metabolic rearrangements and substrate availability mediating secondary changes. Strong perturbation in the relative abundance of amino acids due to the OGDHC inhibition was accompanied by decreased protein content. Our results provide specific evidence of a considerable role of OGDHC in amino acid metabolism.     

Sus Scrofa immune tissues as a new source of bioactive substances for skin wound healing

Influence of a new protein-peptide complex on promoting skin wound healing in male BALB/c mice was studied. Protein-peptide complex, extracted from Sus scrofa immune organs, was percutaneously administered using two methods: by lecithin gel-like liquid crystals and by liquid microemulsion. On the fifth day, wound closure in mice with a linear wound model become faster in group (less 2 days comparison to other ones), which was treated with lecithin liquid crystals carrying the protein-peptide complex. This promoting healing can be caused by resorption of bioactive high-molecular compounds the animal skin. In mice with the linear wound model, the tensile strength of the scars were respectively higher both in mice, treated using lecithin liquid crystals with protein-peptide complex, and in mice, treated using microemulsion containing protein-peptide complex, by 215.4% and 161.5% relative to the animals, which did not receive bioactive substances for wound treatment. It was associated with the regeneratory effects of tissue- and species-specific protein-peptide complexes, including α-thymosin Sus scrofa (C3VVV8_PIG, m/z 3802.8) and other factors, which were described as parts of the new extracted complex. This reveals that percutaneous administration of the complex reliably activates local regenerative processes in animals.     

Development of Technology for the Preparation of Zinc-Dihydroquercetin Complex

Russian Journal of Bioorganic Chemistry - The urgency of developing the technology for obtaining the dihydroquercetin-zinc complex is due to the high antiradical, antioxidant, antiviral activity...