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A. S. Baik K. S. Mironov D. V. Arkhipov M. S. Piotrovskii E. S. Pojidaeva 《Doklady. Biochemistry and biophysics》2018,481(1):190-194
The PepP protein has been purified in vitro and characterized for the first time. It is encoded by the sll0136 gene of the unicellular cyanobacterium Synechocystis sp. PCC6803. It is established that the PepP protein is a Mn2+-dependent Xaa-Pro-specific aminopeptidase. The protein in the reaction of hydrolysis of the fluorescent peptide Lys(N-Abz)-Pro-Pro-pNA has a maximal activity at pH 7.6 and 32°C. 相似文献
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M. S. Piotrovskii T. A. Shevyreva I. M. Zhestkova M. S. Trofimova 《Russian Journal of Plant Physiology》2011,58(2):290-298
Five-day-old etiolated seedlings of maize (Zea mays L.) were used to study the kinetics of hydrogen peroxide formation upon lowering growth temperature from 25 to 6°C. The total
content of hydrogen peroxide in root and shoot tissues increased by 30–40% after 2-h cooling compared to the control level
but returned to the initial level or decreased even lower after 24-h cooling. In order to prove the involvement of plasma
membrane NADPH oxidase in changes of hydrogen peroxide content upon cooling, isolated plasma membranes were obtained from
untreated plants and from seedlings chilled at 6°C for 2 and 24 h. The NADPH-dependent generation of superoxide anion radical
in isolated plasma membranes was quantified by measuring the rate of formazan production from the tetrazolium salt XTT. The
activity of plasma membrane NADPH oxidase in shoots was 50 ± 9 nmol O2/(mg protein min), which was 1.5 times higher than the activity in roots. The enzyme activity in plasma membranes was inhibited
by low concentrations of diphenyleneiodonium. The effective concentration EC50 was 5.10 μM for shoots and 9.05 μM for roots. The activity of plasma membrane NADPH oxidase increased after 2-h cooling of
seedlings but reversed to the control level after 24-h cooling. This transient activation of NADPH oxidase upon cooling was
similar to the pattern of hydrogen peroxide formation in shoots and roots. Analysis of NADPH oxidase activity of plasma membrane
proteins after their separation in denaturing conditions followed by subsequent renaturation revealed four diphenyleneiodonium-sensitive
bands with mol wt of 130, 88, 51, and 48 kD. Western blot analysis of the reaction with antibodies against the catalytic domain
of phagocyte NADPH oxidase revealed the proteins with mol wt of only 88 and 48 kD. The properties of molecular organization
of plasma membrane NADPH oxidase are discussed in terms of its role in cell signaling. 相似文献
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M. S. Piotrovskii T. A. Lapteva I. M. Zhestkova M. S. Trofimova 《Russian Journal of Plant Physiology》2017,64(2):190-197
Kinetics of superoxide anion generation by the isolated plasma membrane was determined by the rate of formazan formation from XTT in the presence of NADPH or NADH. The plasma membrane was prepared from (control) etiolated maize seedlings grown at 25°C and from (cooled) seedlings incubated at 6°C for the last day. Membrane vesicles from the control plants possessed superoxide-producing activity, and the rate of NADH oxidation was markedly higher than that of NADPH. The low-temperature incubation of the seedlings suppressed the NADPH-dependent activity, whereas the NADH-dependent one slightly increased. The solubilized by dodecyl maltoside (DDM) plasma membranes were separated into multiprotein complexes by high-resolution clear native electrophoresis (hrCN-PAGE). The aim was to find complexes exhibiting the superoxide-producing activity sensitive to inhibition by diphenylene iodonium. Several protein complexes from the plasma membrane capable of superoxide producion in the presence of NADPH or NADH were found. The maximum diphenylene iodonium-sensitive activity was found in the high-molecular weight complex, in which proteins reacting with antibodies against C-terminal peptide of phagocytic oxidase (gp91phox) were detectable. The activity of this complex was lower in the cooled than in the control seedlings and displayed higher affinity to NADPH than to NADH. To search for the cooling-induced changes in the polypeptide content of protein complexes, the two-dimensional difference gel electrophoresis (hrCN/SDS-PAGE) was used. Control and cooled samples, whose lysine had been labeled with fluorescent dyes Cy2 and Cy3, respectively, were separated by this method in one gel. Decrease in a temperature of plant growing affected the protein content of the complex so that some new proteins appeared and several polypeptides disappeared as compared with the control. There were no significant differences between the cooled and control counterparts in the content of proteins detectable with gp91phox antibodies. Therefore, the high-molecular complex containing NADPH oxidase looses proteins under low temperature that may decrease its superoxide-producing activity. 相似文献
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B. V. Belugin I. M. Zhestkova M. S. Piotrovskii N. K. Lapshin M. S. Trofimova 《Biochemistry (Moscow) Supplemental Series A: Membrane and Cell Biology》2017,11(2):168-176
Plasma membrane isolated from microsomal membranes of pea seedling root and shoot cells by means of aqueous two-phase polymer system was separated by flotation in discontinuous OptiPrep gradient into “light” (≤1.146 g/cm3) and “heavy” (≥1.146 g/cm3) fractions. Osmotic water permeability of plasma membrane and its two fractions was investigated by inducing transmembrane osmotic gradient on the vesicle membrane and recording the kinetics of vesicle osmotic shrinkage by the stopped-flow method. Rate constants of osmotic shrinkage and coefficients of osmotic water permeability of the membranes were estimated on the basis of the kinetic curve approximation by exponential dependencies and using electron microscope data on vesicles sizes. In plasma membrane and its fractions the content of sterols and PIP1 aquaporins was determined. It was found that in “light” PM fractions from both roots and shoots the content of PIP1 aquaporins and sterols was higher and the osmotic water permeability coefficient was lower than in “heavy” fractions of plasma membrane. The results indicate that plasma membrane of roots and shoots is heterogeneous in osmotic water permeability. This heterogeneity may be related with the presence of microdomains with different content of aquaporins and sterols in the membrane. 相似文献
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Piotrovskii M. S. Lapshin N. K. Andreev I. M. Trofimova M. S. 《Russian Journal of Plant Physiology》2019,66(4):637-645
Russian Journal of Plant Physiology - Investigations were directed to study the mechanism based on redox-dependent modulation of osmotic water permeability in plasmalemma from roots of pea (Pisum... 相似文献
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T. A. Shevyreva M. S. Piotrovskii B. V. Belugin I. M. Zhestkova M. S. Trofimova 《Russian Journal of Plant Physiology》2013,60(4):563-570
Blue native electrophoresis (BN-PAGE) is presently considered as one of effective methods for the identification of membrane protein complexes. The choice of a nonionic detergent and the detergent to protein ratio are critically important. Our experiments with plasma membranes of etiolated pea (Pisum sativum L.) seedlings showed that various nonionic detergents—digitonin, dodecyl maltoside, and Triton X-100—solubilized similar assortments of protein complexes. Irrespective of the detergent type, PIP aquaporins were always observed in the 440-kD protein complex. Only in the case of dodecyl maltoside, the PIP aquaporins were also revealed in the complexes with the lower and higher molecular weights when the detergent/protein ratio increased. 相似文献
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