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31.
32.
Erroneously arising tetraploid mammalian cells are chromosomally instable and may facilitate cell transformation. An increasing body of evidence shows that the propagation of mammalian tetraploid cells is limited by a p53-dependent arrest. The trigger of this arrest has not been identified so far. Here we show by live cell imaging of tetraploid cells generated by an induced cytokinesis failure that most tetraploids arrest and die in a p53-dependent manner after the first tetraploid mitosis. Furthermore, we found that the main trigger is a mitotic defect, in particular, chromosome missegregation during bipolar mitosis or spindle multipolarity. Both a transient multipolar spindle followed by efficient clustering in anaphase as well as a multipolar spindle followed by multipolar mitosis inhibited subsequent proliferation to a similar degree. We found that the tetraploid cells did not accumulate double-strand breaks that could cause the cell cycle arrest after tetraploid mitosis. In contrast, tetraploid cells showed increased levels of oxidative DNA damage coinciding with the p53 activation. To further elucidate the pathways involved in the proliferation control of tetraploid cells, we knocked down specific kinases that had been previously linked to the cell cycle arrest and p53 phosphorylation. Our results suggest that the checkpoint kinase ATM phosphorylates p53 in tetraploid cells after abnormal mitosis and thus contributes to proliferation control of human aberrantly arising tetraploids. 相似文献
33.
T. R. Amen E. V. Mikhailova V. V. Alenin A. V. Artyomov P. A. Dementyev M. A. Khodorkovskii T. O. Artamonova I. M. Kuznetsova T. R. Soidla O. V. Nevzglyadova 《Cell and Tissue Biology》2013,7(1):86-94
Structural and functional characteristics of the yeast red pigment (product of polymerization of N1-(β-D-ribofuranosyl)-5-aminoimidazole), isolated from ade1 mutant cells of Saccharomyces cerevisiae and its deribosylated derivatives (obtained by acid hydrolysis) and its synthetic pigment analogue (product of polymerization of N1-methyl-5-aminoimidazole in vitro) were obtained. Products of in vitro polymerization were identified using mass spectrometry. The ability of these pigments to inhibit amyloid formation using insulin fibrils was compared. All the studied compounds are able to interact with amyloids and inhibit their growth. Electron and atomic force microscopy revealed a common feature inherent in the insulin fibrils formed in the presence of these compounds—they are merged into conglomerates more stable and resistant to the effects of ultrasound than are insulin aggregates grown without pigments. We suggest that all these compounds can cause coalescence of fibrils partially blocking the loose ends and, thereby, inhibit attachment of monomers and formation of new fibrils. 相似文献
34.
N. R. Kuznetsova E. V. Svirshchevskaya I. V. Skripnik E. N. Zarudnaya A. N. Benke G. P. Gaenko Yu. G. Molotkovskii E. L. Vodovozova 《Biochemistry (Moscow) Supplemental Series A: Membrane and Cell Biology》2013,7(1):12-20
When used as nanosized carriers, liposomes enable targeted delivery and decrease systemic toxicity of antitumor agents significantly. However, slow unloading of liposomes inside cells diminishes the treatment efficiency. The problem could be overcome by the adoption of lipophilic prodrugs tailored for incorporation into lipid bilayer of liposomes. We prepared liposomes of egg yolk phosphatidylcholine and yeast phosphatidylinositol bearing a diglyceride conjugate of an antitumor antibiotic doxorubicin (a lipophilic prodrug, DOX-DG) in the membrane to study how these formulations interact with tumor cells. We also prepared liposomes of rigid bilayer-forming lipids, such as a mixture of dipalmitoylphosphatidylcholine and cholesterol, bearing DOX in the inner water volume, both pegylated (with polyethylene glycol (PEG) chains exposed to water phase) and non-pegylated. Efficiency of binding of free and liposomal doxorubicin with tumor cells was evaluated in vitro using spectrofluorimetry of cell extracts and flow cytometry. Intracellular traffic of the formulations was investigated by confocal microscopy; co-localization of DOX fluorescence with organelle trackers was estimated. All liposomal formulations of DOX were shown to distribute to organelles retarding its transport to nucleus. Intracellular distribution of liposomal DOX depended on liposome structure and pegylation. We conclude that the most probable mechanism of the lipophilic prodrug penetration into a cell is liposome-mediated endosomal pathway. 相似文献
35.
T. V. Ivanova O. V. Maiorova Yu. V. Orlova E. I. Kuznetsova L. A. Khalilova N. A. Myasoedov Yu. V. Balnokin V. D. Tsydendambaev 《Russian Journal of Plant Physiology》2016,63(6):763-775
White goosefoot plants (Chenopodium album L. of the family Chenopodiaceae) grown at various NaCl concentrations (3–350 mM) in the nutrient solution were used to study the cell ultrastructure as well as the qualitative and quantitative composition of fatty acids in the lipids of vegetative organs. In addition, the biomass of Ch. album vegetative organs, the water content, and the concentrations of K+, Na+, and Cl– were determined. The growth rates of plants raised at NaCl concentrations up to 200–250 mM were the same as for the control plants grown at 3 mM NaCl; the growth parameters remained rather high even at NaCl concentrations of 300–350 mM. The water content in Ch. album organs remained high at all NaCl concentrations tested. Analysis of the ionic status of Ch. album revealed a comparatively high K+ content in plant organs. At low NaCl concentrations in the nutrient solution, K+ ions were the dominant contributors to the osmolarity (the total concentration of osmotically active substances) and, consequently, to the lowered cell water potential in leaves and roots. As the concentration of NaCl was increased, the plant organs accumulated larger amounts of Na+ and Cl–, and the contribution of these ion species to osmolarity became increasingly noticeable. At 300–350 mM NaCl the contribution of Na+ and Cl– to osmolarity was comparable to that of K+. An electron microscopy study of Ch. album cells revealed that, apart from the usual response to salinity manifested in typical ultrastructural changes of chloroplasts, mitochondria, and the cytosol, the salinity response comprised the enhanced formation of endocytic structures and exosomes and stimulation of autophagy. It is supposed that activation of these processes is related to the removal from the cytoplasm of toxic substances and the cell structures impaired by salt stress conditions. The qualitative and quantitative composition of fatty acids in the lipids of Ch. album organs was hardly affected by NaCl level. These findings are consistent with the high salt tolerance of Ch. album, manifested specifically in retention of growth functions under wide-range variations of NaCl concentration in the nutrient solution and in maintenance of K+, Na+, and Cl– content in organs at a constant level characteristic of untreated plants. 相似文献
36.
Kuznetsova A. A. Kladova O. A. Barthes Nicolas P. F. Michel Benoit Y. Burger Alain Fedorova O. S. Kuznetsov N. A. 《Russian Journal of Bioorganic Chemistry》2019,45(6):591-598
Russian Journal of Bioorganic Chemistry - DNA-substrates containing fluorescent DNA base analogs are widely used to study protein–nucleic acid interactions. In the case of DNA-recognizing... 相似文献
37.
Voronkov A. S. Ivanova T. V. Kuznetsova E. I. Kumachova T. Kh. 《Russian Journal of Plant Physiology》2019,66(6):922-931
Russian Journal of Plant Physiology - Cytophysiological adaptive features of apple fruits (Malus domestica Borkh.) were examined as a function of growth altitude—300, 500, 700, and 1200 m... 相似文献
38.
N. Yu. Kim O. D. Novikova V. A. Khomenko G. N. Likhatskaya O. P. Vostrikova V. I. Emel’yanenko S. M. Kuznetsova T. F. Solov’eva 《Biochemistry (Moscow) Supplemental Series A: Membrane and Cell Biology》2007,1(2):145-153
The changes in the structural and functional properties of yersinin, a porin from the outer membrane of Yersinia pseudotuberculosis, were studied in the pH range 8.0–2.0 using SDs-PAGE, scanning microcalorimetry, optical spectroscopy and bilayer lipid membrane technique. It was found that in the pH range under study the changes in the spatial structure of yersinin were biphasic. In the first steps of pH titration (pH 8.0–4.5), porin underwent a series of conformational transitions, which did not affect the trimeric structure of its molecule. In the second step (pH 4.0–2.0), structural rearrangements led to dissociation of the protein trimers into monomers. It is noteworthy that complete unfolding of the polypeptide chain of the protein was not observed even at low values of pH. Thus, at pH 2.0 the conformational intermediate of the protein retained up to 50% of its regular secondary structure. Studies of current fluctuations in the bilayer lipid membrane revealed that in weakly acidic media the conductivity of yersinin pores was decreased by one order of magnitude. The most drastic changes in the conductivity of the model membrane were observed at pH 5.8, whereas a further decrease of pH to 5.0 resulted in the closure of porin channels. It was concluded that the observed changes in the pore-forming properties of yersinin in a narrow range of pH represent an early step in the adaptation of bacteria to the changing conditions of the environment and entail control over the biosynthesis of nonspecific porins. The pH-dependent changes in the structure and pore-forming properties of yersinin provide additional evidence in favor of conformational and functional plasticity of porins. 相似文献
39.
V. V. Shumyantseva T. V. Bulko Yu. O. Rudakov G. P. Kuznetsova N. F. Samenkova A. V. Lisitsa I. I. Karuzina A. I. Archakov 《Biochemistry (Moscow) Supplemental Series B: Biomedical Chemistry》2007,1(4):327-333
Direct electron transfer has been demonstrated between cytochrome P450 2B4 (CYP2B4), P450 1A2 (CYP1A2), sterol 14α-demethylase (CYP51MT) and screen printed graphite electrodes, modified by gold nanoparticles and didodecyldimethyl ammonium bromide (DDAB). The proposed method for preparation of enzymatic nanostructured electrodes may be used for electrodetection of this hemoprotein provided that 2–200 pmol P450 per electrode has been adsorbed. Electron transfer, direct electrochemical reduction and interaction with P450 substrates (oxygen, benzphetamine, lanosterol) and inhibitor ketoconazole were analyzed using cyclic voltammetry (CV), square wave (SWV) or differential pulse (DPV) voltammetry, and amperometry. 相似文献
40.
The kinetics of photochemical (qQ) and nonphotochemical (qE) fluorescence quenching during induction was studied in terms of the earlier developed theoretical model of photosynthesis. Photochemical and nonphotochemical quenching was calculated from the parameters of fluorescence induction upon simultaneous excitation with continuous light and by high-intensity light pulses by the method used in a PAM fluorometer. It is shown that the fraction of closed reaction centers during the pulse can change in the course of induction. In consequence, even when none of supposed mechanisms of photochemical quenching is taken into account, the value of qE during induction varies and is not equal to zero. 相似文献