[Factors Affecting the Labeling of NIH 3T3 Cells with Magnetic Nanoparticles].

The factors that affect the labeling of NIH 3T3 murine fibroblasts with Fe3O4-based magnetic nanoparticles (MNPs) were studied using MNPs produced by the gas condensation and solution precipitation methods and MNPs surface-modified with 3-aminopropylsilane or L-lysine. The production method, surface modifications, the particle concentration and size, the state of the cell population, and the method of MNP introduction were found to substantially affect the efficiency of MNP binding by cells. In particular, large MNP clusters may occur in MNP suspensions in DMSO, and their disruption by sonication increased the percent yield of magnetically labeled cells. Static incubation of a cell suspension led to a more efficient labeling as compared with continuous agitation. Cells attached to a plastic support could be labeled to a higher degree than cells in suspension, but required substantially longer incubations with MNPs. MNP centrifugation on cell layers (magnetic spinoculation) significantly increased the rate and efficiency of labeling. The stability of magnetic labeling was shown to depend on the MNP dose during labeling. Electron microscopy studies demonstrated that MNPs were associated with the cell surface after 20-min incubation with cells and were mostly in the cell interior after 4-h incubation. The results of the study may be useful for preparation and application of magnetized cell samples.

Analysis of Proliferation of Melanoma Cells and Mesenchymal Stem Cells in Co-Culture and Contribution of Experimental Conditions into Interpretation of the Results.

A series of experiments on co-culturing of Mel IL melanoma cells and mesenhymal stem cells showed that these cells do not influence proliferation of each other, but we observed weaker adhesion of stromal stem cells to plastic in cocultures where with melanoma cells were grown on mesenhymal stem cells feeder. Cell proliferation was also considerably influenced by experimental conditions, which should be taken into account for correct interpretation of obtained results. The principles of experiments on co-culturing of cancer and stromal cells are formulated that take into account the most important factors influencing cell behavior and minimize the probability of artifact results. It was concluded that co-culturing conditions cells significantly affect the experimental results and can be the source of conflicting conclusions on mutual influence of stromal and cancer cells in vitro.

[Key regulators of skeletal myogenesis].

Skeletal myogenesis has been extensively studied at both morphological and molecular levels. This review considers the main stages of embryonic skeletal myogenesis and myogenic factors that trigger their initiation, focusing on specific protein interactions involved in somitic myogenesis, head myogenesis, and limb myogenesis. The second part of the review describes the role of noncoding RNAs (microRNAs and long noncoding RNAs) in myogenesis. This information is of particular interest, because regulation of cell processes by noncoding RNAs is an actively developing field of molecular biology. Knowledge of mechanisms of skeletal myogenesis is of applied significance. Various transcription factors, noncoding RNAs, and other myogenic regulators can be employed in the induction of myogenic reprogramming in stem cells and differentiated somatic cells. Current trends and strategies in the field of skeletal myogenic reprogramming are discussed in the last part of the review.

[Identification of the amino acid residues responsible for the reversible photoconversion of the monomeric red fluorescent protein TagRFP protein].

The site-directed mutagenesis of the monomeric red fluorescent protein TagRFP and its variants was performed with the goal of generating reversibly photoactivatable fluorescent proteins. Amino acids at positions 69, 148, 165, 179, and 181 (enumeration according to the green fluorescent protein GFP) were shown to play a key role in the manifestation of the photoactivatable properties. A reversibly photoactivatable red fluorescent protein KFP-HC with excitation and emission maxima at 585 and 615 nm, respectively, was generated. The KFP-HC fluorescent intensity was decreased by 5-10 times under green light (530-560 nm) irradiation (due to the fall of the fluorescence quantum yield) and restored under irradiation with blue light (450-490 nm) or after incubation in the dark (time of half reconstruction of 30 min).

[Involvement of guanine nucleotide exchange factor xLARG in epiboly of cells of the animal pole of Xenopus laevis embryos].

The development of multicellular organisms is a complicated coordinated process of the movement of groups of embryonic cells, which is controlled by many regulatory systems. At present little is known about the regulation of the earliest manifestations of the movement in the embryogenesis: epiboly and radial intercalation. The coordinators of these processes may be small GTPases of the Rho family and their activators, the factors of exchange of guanylic nucleotides. It has been shown in this work that the overexpression of the factor of exchange of guanylic nucleotides xLARG in Xenopus laevis embryos leads to an increase in the amount of the active form of xLARG. In addition, an increase in the expression of xLARG disturbs the process of radial intercalation. The data obtained suggest that xLARG is involved in maintaining the xLARG activation level necessary for the occurrence of epiboly.