Reconstitution of Mn-depleted photosystem II (PSII) particles was examined with synthetic trinuclear Mn complexes of newly developed tripod ligands. Rates of the electron transfer and oxygen evolution were up to 74-86 and 52-56% of those measured in native PSII. These values are higher than those for the PSII reconstituted by MnCl(2). The role of the tripod ligands during the reconstitution process was examined by (19)F NMR. Due to the high NMR sensitivity of the (19)F nucleus and the low abundance of fluorine atoms in natural PSII, it was possible to selectively observe the fluorine atoms on the tripod ligand. It was shown that the tripod ligands were released from the Mn complex after the reconstitution. We propose that the primary step in the reconstitution process is the prebinding of the Mn complex to the hydrophobic part of the PSII particle. 相似文献
The involvement of galectins as pleiotropic regulators of cell adhesion and growth in disease progression explains the interest to define their ligand-binding properties. Toward this end, it is desirable to approach in vivo conditions to attain medical relevance. In order to simulate physiological conditions with cell surface glycans as recognition sites and galectins as mediators of intercellular contacts we developed an assay using galectin-loaded Raji cells. The extent of surface binding of fluorescent neoglycoconjugates depended on the lectin presence and the type of lectin, the nature of the probes' carbohydrate headgroup and the density of unsubstituted beta-galactosides on the cell surface. Using the most frequently studied galectins-1 and -3, application of this assay led to rather equal binding levels for linear and branched oligomers of N-acetyllactosamine. A clear preference of galectin-3 for alpha1-3-linked galactosylated lactosamine was noted. In parallel, a panel of 24 neoglycoconjugates was tested as inhibitors of galectin binding from solution to N-glycans of surface-immobilized asialofetuin. These two assays differ in presentation of the galectin and ligand, facilitating identification of assay-dependent properties. Under the condition of the cell assay, selectivity among oligosaccharides for the lectins was higher, and extraordinary affinity of galectin-1 to 3'-O-sulfated probes in a solid-phase assay was lost in the cell assay. Having introduced and validated a cell assay, the comprehensive profiling of ligand binding to cell-surface-presented galectins is made possible. 相似文献
The Meiothermus ruber alkaline phosphatase gene was cloned, expressed in Escherichia coli cells, and sequenced. The enzyme precursor, including the putative signal peptide, was shown to consist of 503 residues (deduced molecular mass 54,229 Da). The recombinant enzyme showed the maximal activity at 60–65°C, pH 11.0, KM = 0.055 mM with p-nitrophenyl phosphate. The enzyme proved to be moderately thermostable, retaining 50% activity after 6 h incubation at 60°C and being completely inactivated in 2 h at 80°C. In substrate specificity assays, the highest activity was observed with p-nitrophenyl phosphate and dATP. Vanadate, inorganic phosphate, and SDS were inhibitory, while thiol-reducing agents had virtually no effect. The enzyme activity strongly depended on exogenous Mg2+ and declined in the presence of EDTA. 相似文献
Geranylgeranylation is a post-translational modification of Rab GTPases that enables them to associate reversibly with intracellular membranes. Geranylgeranylation of Rab proteins is critical for their activity in controlling intracellular membrane transport. According to the currently accepted model for their action, newly synthesized Rab proteins are recruited by Rab escort protein (REP) and are presented to the Rab geranylgeranyl transferase (RabGGTase) which covalentely modifies the Rab protein with two geranylgeranyl moieties. After prenylation, the Rab protein remains in complex with REP and is delivered to the target membrane by the latter. In this work, we show that RabGGTase can form a stable complex with Rab7-REP in the absence of its lipid substrate geranylgeranyl pyrophosphate. In order to characterize this interaction, we developed three fluorescence assays reporting on the interaction of RabGGTase with the Rab7-REP complex. For this interaction we determined a Kd value of about 120 nM. Association of RabGGTase with the Rab7-REP complex occurs with a rate constant of approximately 108 M-1 x s-1. We demonstrate that the state of the nucleotide bound to Rab7 does not influence the affinity of RabGGTase for the Rab7-REP-1 complex. Finally, we address the issue of substrate specificity of RabGGTase. Titration experiments demonstrate that, in contrast with farnesyl transferase, RabGGTase does not recognize a defined C-terminal sequence motif. Experiments using Rab7 mutants in which the last 16 amino acids were either mutated or truncated revealed that the distal part of the C-terminus makes only a limited contribution to the binding affinity between RabGGTase and the Rab7-REP-1 complex. This demonstrates the functional dissimilarity between RabGGTase and geranylgeranyl transferase I and farnesyl transferase, which interact specifically with the C-terminus of their substrates. Based on these experiments, we propose that RabGGTase recognizes the overall structure arising from the association of Rab and REP and then 'scans' the flexible C-terminus to position the proximal cysteines into the active site. 相似文献
Analysis of primary structure and organization of mitochondrial (kinetoplast) DNA of flagellates occupies a prominent place in the studies of eukaryote mitochondrial genomes, owing to its unusual organization and functioning as well as to the epidemiological role of the Trypanosomatidae family. According to contemporary notions, living zooflagellates are direct descendants of the ancestral forms that gave rise to all eukaryotic kingdoms. Hence, comparative mtDNA studies of recent Trypanosomatidae open broad prospects for phylogenetic reconstructions and analysis of presumable routes of eukaryote evolution. The structure, characteristics, and functions of Trypanosomatidae minicircular kinetoplast DNA are discussed here. 相似文献
Russian Journal of Marine Biology - The biological activity of extracts from nine species of marine invertebrates (the phyla Cnidaria, Annelida, Sipunculida, and Nemertea) that inhabit Troitsa Bay... 相似文献
Seasonal changes in several physiological endpoints of the perch Perca fluviatilis in the temperate climatic conditions were examined. Hepatic antioxidant enzyme activities (superoxide dismutase, catalase, and glutathione-S-transferase) varied dramatically throughout the annual cycle. Driven by internal and external factors, the greatest values of the studied characteristics were timed to the periods of spawning and elevated water temperature. The results of this study showed high plasticity of the fish’s antioxidant system, which allows the perch to bear naturally occurring oxidative stress. 相似文献
Germanium vs Silicon: All‐dielectric nanoparticles provides the heat resistance for proteins under light‐induced heating. Further details can be found in the article by Andrei A. Krasilin et al. ( e201700322 )
Interaction between nanoparticles and biomolecules leads to the formation of biocompatible or bioadverse complexes. Despite the rapid development of nanotechnologies for biology and medicine, relatively little is known about the structure of such complexes. Here, we report on the changes in conformation of a blood protein (bovine serum albumin) adsorbed on the surface of single all‐dielectric nanoparticles (silicon and germanium) following light‐induced heating to 640 K. This protein is considerably more resistant to heat when adsorbed on the nanoparticle than when in solution or in the solid state. Intriguingly, with germanium nanoparticles this heat resistance is more pronounced than with silicon. These observations will facilitate biocompatible usage of all‐dielectric nanoparticles. 相似文献
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