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971.
K. V. Derkach I. B. Sukhov L. A. Kuznetsova D. M. Buzanakov A. O. Shpakov 《Doklady. Biochemistry and biophysics》2016,467(1):95-98
The effect of the two-month metformin treatment (200 mg/kg/day) of rats with the neonatal model of type 2 diabetes mellitus on the functional activity of hypothalamic signaling systems was studied. It was shown that metformin treatment restored the sensitivity of hypothalamic adenylyl cyclase signaling system to agonists of the type 4 melanocortin receptor and the type 2 dopamine receptor but did not influence significantly the functions of the insulin signaling system. These data suggest new targets and mechanisms of metformin action in the CNS, which may mediate its restoring effect on energy homeostasis impaired in diabetic pathology. 相似文献
972.
973.
Simonova O. A. Kuznetsova E. B. Poddubskaya E. V. Kekeeva T. V. Kerimov R. A. Trotsenko I. D. Tanas A. S. Rudenko V. V. Alekseeva E. A. Zaletayev D. V. Strelnikov V. V. 《Molecular Biology》2015,49(4):598-607
Molecular Biology - Extracellular glycoproteins of the laminin family are essential components of basement membranes involved in a number of biological processes, including tissue differentiation,... 相似文献
974.
Elena Kuznetsova Pascale M. A. Seddas-Dozolme Christine Arnould Marie Tollot Diederik van Tuinen Alexey Borisov Silvio Gianinazzi Vivienne Gianinazzi-Pearson 《Mycorrhiza》2010,20(6):427-443
The arbuscular mycorrhiza association results from a successful interaction between genomes of the plant and fungal symbiotic
partners. In this study, we analyzed the effect of inactivation of late-stage symbiosis-related pea genes on symbiosis-associated
fungal and plant molecular responses in order to gain insight into their role in the functional mycorrhizal association. The
expression of a subset of ten fungal and eight plant genes, previously reported to be activated during mycorrhiza development,
was compared in Glomus intraradices-inoculated wild-type and isogenic genotypes of pea mutated for the PsSym36, PsSym33, and PsSym40 genes where arbuscule formation is inhibited or fungal turnover modulated, respectively. Microdissection was used to corroborate
arbuscule-related fungal gene expression. Molecular responses varied between pea genotypes and with fungal development. Most
of the fungal genes were downregulated when arbuscule formation was defective, and several were upregulated with more rapid
fungal development. Some of the plant genes were also affected by inactivation of the PsSym36, PsSym33, and PsSym40 loci, but in a more time-dependent way during root colonization by G. intraradices. Results indicate a role of the late-stage symbiosis-related pea genes not only in mycorrhiza development but also in the
symbiotic functioning of arbuscule-containing cells. 相似文献
975.
A. O. Shpakov L. A. Kuznetsova S. A. Plesneva M. N. Pertseva 《Cell and Tissue Biology》2007,1(4):343-351
Presently, our work, as well as that of other authors, has produced convincing evidence in favor of the idea that disturbances in hormonal signaling systems are one of the main causes of the development of pathological alterations and complications in diabetes. However, the molecular mechanisms underlying these disturbances remain practically unstudied, particularly in insulin-independent type 2 diabetes. Using a neonatal streptozotocin model of type 2 diabetes, whose duration was either 80 or 180 days, we studied changes in the functional activity of components of the hormone-regulated adenylyl cyclase (AC) signaling system in the myocardium and brain striatum of diabetic rats as compared with control animals. In diabetes, the Gi-realized process of transduction of the hormonal signal inhibiting AC activity has been shown to be markedly impaired. This is manifested as a decrease of the inhibitory effect of hormones on AC activity and an attenuation of their stimulation of the G-protein’s GTP-binding activity. In the case of noradrenaline (myocardium), the inhibitory pathway of the AC system regulation is completely suppressed, while the stimulatory pathway is preserved. An increase in the duration of diabetes development from 80 to 180 days leads to some decrease in the transduction of hormonal signals realized via Gi-proteins. The stimulatory effects of biogenic amines and relaxin on AC activity and GTP binding in the myocardium and brain of diabetic rats change relatively little, both in the 80-and in the 180-day diabetes. Thus, in the experimental type 2 diabetes, disturbances in Gi-protein coupled signal cascades are primarily observed, through which hormones realize their inhibition of AC activity. 相似文献
976.
Alexandra A. Kuznetsova Nikita A. Kuznetsov Alexander A. Ishchenko Murat K. Saparbaev Olga S. Fedorova 《Biochimica et Biophysica Acta (BBA)/General Subjects》2014
Background
Extensive structural studies of human DNA glycosylase hOGG1 have revealed essential conformational changes of the enzyme. However, at present there is little information about the time scale of the rearrangements of the protein structure as well as the dynamic behavior of individual amino acids.Methods
Using pre-steady-state kinetic analysis with Trp and 2-aminopurine fluorescence detection the conformational dynamics of hOGG1 wild-type (WT) and mutants Y203W, Y203A, H270W, F45W, F319W and K249Q as well as DNA–substrates was examined.Results
The roles of catalytically important amino acids F45, Y203, K249, H270, and F319 in the hOGG1 enzymatic pathway and their involvement in the step-by-step mechanism of oxidative DNA lesion recognition and catalysis were elucidated.Conclusions
The results show that Tyr-203 participates in the initial steps of the lesion site recognition. The interaction of the His-270 residue with the oxoG base plays a key role in the insertion of the damaged base into the active site. Lys-249 participates not only in the catalytic stages but also in the processes of local duplex distortion and flipping out of the oxoG residue. Non-damaged DNA does not form a stable complex with hOGG1, although a complex with a flipped out guanine base can be formed transiently.General significance
The kinetic data obtained in this study significantly improves our understanding of the molecular mechanism of lesion recognition by hOGG1. 相似文献977.
Stepanenko OV Marabotti A Kuznetsova IM Turoverov KK Fini C Varriale A Staiano M Rossi M D'Auria S 《Proteins》2008,71(1):35-44
Despite the fact that the porcine odorant-binding protein (pOBP) possesses a single tryptophan residue (Trp 16) that is characterized by a high density microenvironment (80 atoms in a sphere with radius 7 A) with only one polar group (Lys 120) and three bound water molecules, pOBP displayed a red shifted fluorescence emission spectrum (lambda(max) = 340 nm). The protein unfolding in 5M GdnHCl was accompanied by the red shift of the fluorescence emission spectrum (lambda(max) = 353 nm), by the increase of fluorescence quantum yield, and by the decrease of lifetime of the excited state (from 4.25 ns in native state to 3.15 ns in the presence of 5M GdnHCl). Taken together these data indicate the existence of an exciplex complex (Trp 16 with Lys 120 and/or with bound molecules of water) in the protein native state. Heat-induced denaturation of pOBP resulted in significant red shifts of the fluorescence emission spectra: the value of the ratio (I(320)/I(365)) upon excitation at lambda(ex) = 297 nm (parameter A) decreases from 1.07 to 0.64 passing from 60 to 85 degrees C, and the calculated midpoint of transition was centered at 70 degrees C. Interestingly, even at higher temperature, the values of the parameter A both in the absence and in the presence of GdnHCl did not coincide. This suggests that a portion of the protein structure is still preserved upon the temperature-induced denaturation of the protein in the absence of GdnHCl. CD experiments performed on pOBP in the absence and in the presence of GdnHCl and at different temperatures were in agreement with the fluorescence results. In addition, the obtained experimental data were corroborated by the analysis of the 3D structure of pOBP which revealed the amino acid residues that contribute to the protein dynamics and stability. Finally, molecular dynamics simulation experiments pointed out the important role of ion pair interactions as well as the molecular motifs that are responsible for the high thermal stability of pOBP, and elucidated the reasons of the protein aggregation that occurred at high temperature. 相似文献
978.
Oknina LB Kuznetsova OA Belostostskiĭ AP Nechaeva NL Kutakova EV Masherov EL Romanov AS 《Fiziologiia cheloveka》2011,37(1):56-64
The aim of study was to track a cumulative changes of amplitude-time parametres of components N1, N2 and P300 of acoustic evoked potential in experimental situations different in complexity (at the account and listening of sounds) and to compare the received distinctions at examinees of young and mature age. ERP were recorded at 12 healthy subjects from 18 to 22 ages and 12 subjects from 32 to 59 ages. The two-stimuli oddball paradigm was used. It is revealed that components N1, N2 and P300 recorded in the situation of the listenings of sounds without any preliminary instruction do not differ at persons of young and mature age. At examinees of younger age the biger amplitude of component N1 is noted at the account of sounds in comparison with listening whereas the latency of the one do not change depending on complexity of the task. It is shown that component N2 has stability of latency in relation to age and an experimental situation. The amplitude of component N2 is above at the account of sounds in both age groups. The amplitude-time parametres of component P300 do not differ at examinees of different age in a problem of listening of sounds. The revealed features of components N1, N2 and P300 at examinees of young and mature age in experimental situations different in complexity, allow to assume that with the years at the person adaptive mechanisms which allow carrying out successfully of the task. 相似文献
979.
Regulation of Na,K-pump-mediated transport by prolactin in cultured human prostate epithelial cells.
M J Duran M Chosseler TA Pressley 《Cellular and molecular biology, including cyto-enzymology》2004,50(7):809-814
The prostate gland is unique in its ability to secrete large amounts of zinc and citrate, suggesting that it employs unusual transport mechanisms. Intracellular ionic homeostasis in prostate is likely to be mediated by the Na,K-pump, yet there have been few studies of its regulation in this tissue. Accordingly, we explored the expression of the Na,K-pump in PC3 cells, an established cell line of human prostate epithelial cells. Total RNA from confluent monolayers of PC3 cells was isolated, reverse transcribed, and the resulting complementary DNA was amplified by polymerase chain reaction using primers specific for each of the pump's constituent subunits. The amplification revealed a complex pattern of Na,K-pump expression, with detection of mRNAs encoding the alpha1-, alpha3-, alpha4-, betal-, beta2- and beta3-isoforms. We next examined the effect on pump activity of prolactin, an important mediator of cell proliferation in prostate cancer. Monolayers exposed to 10 nM prolactin for 24 hr revealed an inhibition of 40% in ouabain-sensitive 86Rb+ uptake, a sensitive measure of pump-mediated transport. These experiments suggest that the unique transport properties of prostate may depend, at least in part, on a complicated pattern of Na,K-pump expression and regulation. 相似文献
980.
Nitrite reductases found in plants, algae, and cyanobacteria catalyze the six-electron reduction of nitrite to ammonia with reduced ferredoxin serving as the electron donor. They contain one siroheme and one [4Fe-4S] cluster, acting as separate one-electron carriers. Nitrite is thought to bind to the siroheme and to remain bound until its complete reduction to ammonia. In the present work the enzyme catalytic cycle, with ferredoxin reduced by photosystem 1 as an electron donor, has been studied by EPR and laser flash absorption spectroscopy. Substrate depletion during enzyme turnover, driven by a series of laser flashes, has been demonstrated. A complex of ferrous siroheme with NO, formed by two-electron reduction of the enzyme complex with nitrite, has been shown to be an intermediate in the enzyme catalytic cycle. The same complex can be formed by incubation of free oxidized nitrite reductase with an excess of nitrite and ascorbate. Hydroxylamine, another putative intermediate in the reduction of nitrite catalyzed by nitrite reductase, was found to react with oxidized nitrite reductase to produce the same ferrous siroheme-NO complex, with a characteristic formation time of about 13 min. The rate-limiting step for this reaction is probably hydroxylamine binding to the enzyme, with the conversion of hydroxylamine to NO at the enzyme active site likely being much faster. 相似文献