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排序方式: 共有339条查询结果,搜索用时 15 毫秒
21.
The alkylhydroxybenzene (AHB) autoregulatory factors d1 (fd1) of microorganisms have been found to directly interact with highly polymeric DNA. This circumstance results in changes, related to alterations in the topology of this macromolecule, in DNA physicochemical properties. The physicochemical properties of DNA in the presence of chemical analogues of microbial AHBs (methylresorcinol; hexylresorcinol; and 2-(4-hydroxyphenyl)ethane-1-ol, also known as tyrosol) were investigated using adsorption spectrophotometry, fluorometry, heat denaturation, viscosimetry, and electrophoresis in agarose gel. A number of concordant effects pointing to DNA-AHB interactions were revealed that manifesed themselves in the hypochromic properties of the resulting complexes, an increase in their melting temperature and viscosity, a decrease in their electrophoretic mobility, and a change in the fluorescent properties of AHBs upon complexation with DNA. Such alterations were particularly significant in the presence of hexylresorcinol, which possessed the maximum alkyl radical length among the fd1 analogues tested. Using atomic force microscopy, we visualized the micelle-like DNA nanostructures forming in the presence of AHBs. The results obtained provided the basis for developing a hypothetical model of the interaction between the biopolymer macromolecule and low-molecular-weight AHBs that takes into account the differences in the hydrophobicity of individual AHB homologues functioning as ligands. In terms of our model, we discuss AHB involvement in the stabilization of DNA and alteration of its topology, i.e., in the process related to intragenomic rearrangements, which account for the intrapopulational variability of bacteria, including dissociation processes. 相似文献
22.
Resolution of two substrate-binding sites in an engineered cytochrome P450eryF bearing a fluorescent probe
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To elucidate the mechanisms of cooperativity of cytochrome P450eryF an SH-reactive fluorescent probe was introduced close to the substrate-binding site. Cys-154, the only accessible cysteine, was eliminated by site-directed mutagenesis, and a novel cysteine was substituted for Ser-93 in the B'/C loop. S93C, C154A, C154S, S93C/C154A, and S93C/S154C were characterized in terms of affinity for 1-pyrenebutanol (1-PB), cooperativity, and ionic-strength dependence of the 1-PB-induced spin shift. S93C/C154S retains the key functional properties of the wild-type, and modification by three different SH-reactive probes had little effect on the characteristics of the enzyme. The labeled proteins exhibited fluorescence resonance energy transfer from 1-PB to the label, which allowed us to resolve two substrate-binding events, and to determine the corresponding KD values (KD1 = 1.2 +/- 0.2 microM, KD2 = 9.4 +/- 0.8 microM). Using these values for analysis of the substrate-induced spin transition, we demonstrate that the interactions of P450eryF with 1-PB are consistent with a sequential binding mechanism, where substrate interactions at a higher-affinity site cause a conformational transition crucial for the binding of the second substrate molecule and subsequent spin shift. This transition is apparently associated with an important rearrangement of the system of salt links in the proximity of Cys-154. 相似文献
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Tarasova NB Petrova OE Davydova MN Khairutdinov BI Klochkov VV 《Biochemistry. Biokhimii?a》2004,69(7):809-812
The appearance of unsubstituted glucopyranose residues in nitrocellulose (NC) induced by Desulfovibrio desulfuricans was established by (13)C-NMR spectroscopy. After contact with bacterial cells, the degree of substitution by nitro groups in NC decreased from 2.59 to 2.40. The bacteria possess intra- and extracellular nitroesterase activities, which are responsible for denitration of the polymer. The presence of NC in the growth medium influences the extracellular nitroesterase activity. It is shown that inhibition of enzymatic activity in the presence of NC is caused by appearance of nitrates in the culture medium. Nitrate and nitrite reductases of dissimilatory type reduce nitrates. The data suggest consideration of bacteria belonging to the Desulfovibrio genus as the initial agent in utilization of an unnatural polymer--nitrocellulose--in a microbial consortium. 相似文献
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The effect of beta-endorphin on 2-, 4- and 8-cell embryo development in vitro was studied. It is shown, that hormone has no effect on 2-cell embryos development, but it has enhanced viability of 4- and 8-cell mouse embryos. The number ofblastocyst formation increases in presence of 0.1 microM beta-endorphin in embryo cultured medium but the number of blastocyst with abnormal structure decreases. The effect of hormone on the change of intracellular concentration of Ca2+ ion in 2-, 4- and 8-cell mouse embryo has been studied with the help of fluorescent microscopy. The effect of adenylate cyclase, and phospholipase activity blockers and opioid blocker naloxone on the change of intracellular concentration of Ca2+ ion in early mouse embryo in the presence of beta-endorphin have been also studied. It is shown that 2-cell embryo has opioid and nonopioid beta-endorphin receptors, whereas 4- and 8-cell mouse embryos have only nonopoioid beta-endorphin receptors. It is also shown that the effect of beta-endorphin in the early mouse embryo through a nonopioid receptors occurs with the participation of intracellular Ca2+ and adenylate cyclase signaling system. 相似文献
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I. M. Yermak V. N. Davydova 《Biochemistry (Moscow) Supplemental Series A: Membrane and Cell Biology》2008,2(4):279-295
Lipopolysaccharides (LPS) are unique cell wall components of gram-negative bacteria. They represent amphiphilic biopolymeric compounds combining in a single molecule hydrophilic (O-specific chains, core oligosaccharide, etc.) and hydrophobic (lipid A) entities. LPS play a crucial role in various interactions between micro- and macroorganisms and display a broad range of biological activities including toxic activity and ability to activate immune cells. Biological activities of LPS are based on their ability to bind with high affinity to mammalian proteins, e.g., lipoproteins, bactericidal permeability-increasing proteins, lysozyme, etc., and thus to neutralize toxic effects of endotoxins. LPS are specific targets for antimicrobial polycationic compounds used in the therapy of bacterial infections. Studies of mechanisms of toxic effects of LPS culminated in the development of novel approaches to LPS neutralization. One of them is based on the use of compounds able to neutralize LPS toxicity at the expense of formation of macromolecular complexes with them. This approach is highly specific and has no effect on functional activity of antipathogenic defense mechanisms of the host. Interaction of LPS with various classes of cationic amphiphilic molecules including proteins, peptides, and polyamines was the subject of intensive studies in the past decade. Binding of cationic polymers is provided by electrostatic interactions between LPS and negatively charged phosphate and carboxylic groups of LPS localized in lipid A core. The present study is an overview of recently published data on different mechanisms of interactions of LPS with soluble proteins and polycations and modification of physiological activity of LPS. 相似文献
28.
Davydova VN Bratskaya SY Gorbach VI Solov'eva TF Kaca W Yermak IM 《Biophysical chemistry》2008,136(1):1-6
Electrokinetic properties of complexes of chitosan (Ch) with lipopolysaccharides (LPSs) from Escherichia coli O55:B5, Yersinia pseudotuberculosis 1B 598, and Proteus vulgaris O25 (48/57) and their size distribution were investigated using zeta-potential distribution assay and quasi-elastic light scattering. The interaction of LPS from different microorganisms with chitosan at the same w/w ratio of components (1:1) resulted in the formation of complexes in which the negative charge of LPS was neutralized (LPS from E. coli) or overcompensated (Y. pseudotuberculosis and P. vulgaris). The changing in size of the endotoxin aggregates during binding with chitosan was observed. The binding constants of chitosan with LPSs were determined by a method with using the anionic dye Orange II. The LPS from E. coli possess higher affinity to chitosan in comparison with the two others samples of endotoxin. 相似文献
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