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81.
Denis Susorov Tatiana Mikhailova Alexander Ivanov Elizaveta Sokolova Elena Alkalaeva 《Nucleic acids research》2015,43(6):3332-3343
Stabilization of the ribosomal complexes plays an important role in translational control. Mechanisms of ribosome stabilization have been studied in detail for initiation and elongation of eukaryotic translation, but almost nothing is known about stabilization of eukaryotic termination ribosomal complexes. Here, we present one of the mechanisms of fine-tuning of the translation termination process in eukaryotes. We show that certain deacylated tRNAs, remaining in the E site of the ribosome at the end of the elongation cycle, increase the stability of the termination and posttermination complexes. Moreover, only the part of eRF1 recognizing the stop codon is stabilized in the A site of the ribosome, and the stabilization is not dependent on the hydrolysis of peptidyl-tRNA. The determinants, defining this property of the tRNA, reside in the acceptor stem. It was demonstrated by site-directed mutagenesis of tRNAVal and construction of a mini-helix structure identical to the acceptor stem of tRNA. The mechanism of this stabilization is different from the fixation of the unrotated state of the ribosome by CCA end of tRNA or by cycloheximide in the E site. Our data allow to reveal the possible functions of the isodecoder tRNAs in eukaryotes. 相似文献
82.
Andrey V. Mardanov Galina B. Slododkina Alexander I. Slobodkin Alexey V. Beletsky Sergey N. Gavrilov Ilya V. Kublanov Elizaveta A. Bonch-Osmolovskaya Konstantin G. Skryabin Nikolai V. Ravin 《Applied and environmental microbiology》2015,81(3):1003-1012
Geoglobus acetivorans is a hyperthermophilic anaerobic euryarchaeon of the order Archaeoglobales isolated from deep-sea hydrothermal vents. A unique physiological feature of the members of the genus Geoglobus is their obligate dependence on Fe(III) reduction, which plays an important role in the geochemistry of hydrothermal systems. The features of this organism and its complete 1,860,815-bp genome sequence are described in this report. Genome analysis revealed pathways enabling oxidation of molecular hydrogen, proteinaceous substrates, fatty acids, aromatic compounds, n-alkanes, and organic acids, including acetate, through anaerobic respiration linked to Fe(III) reduction. Consistent with the inability of G. acetivorans to grow on carbohydrates, the modified Embden-Meyerhof pathway encoded by the genome is incomplete. Autotrophic CO2 fixation is enabled by the Wood-Ljungdahl pathway. Reduction of insoluble poorly crystalline Fe(III) oxide depends on the transfer of electrons from the quinone pool to multiheme c-type cytochromes exposed on the cell surface. Direct contact of the cells and Fe(III) oxide particles could be facilitated by pilus-like appendages. Genome analysis indicated the presence of metabolic pathways for anaerobic degradation of aromatic compounds and n-alkanes, although an ability of G. acetivorans to grow on these substrates was not observed in laboratory experiments. Overall, our results suggest that Geoglobus species could play an important role in microbial communities of deep-sea hydrothermal vents as lithoautotrophic producers. An additional role as decomposers would close the biogeochemical cycle of carbon through complete mineralization of various organic compounds via Fe(III) respiration. 相似文献
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Nina S. Brykova Dmitriy A. Gusarov Irene V. Sokolova Valentine D. Gusarova Tatjana V. Vorobjeva Dmitry I. Bairamashvili 《Process Biochemistry》2011,46(10):2036-2043
It was shown that H1 type histones possess anticancer activity and could be utilized in therapy of acute myeloid leukemia. We developed an experimental pilot-scale technology of the recombinant histone H1.3 variant production. The downstream process includes acidic extraction of the target protein from the culture broth, ion-exchange, reversed-phase and size-exclusion chromatography, and freeze-drying. The accent was made on the reduction of bacterial endotoxin contamination of the active pharmaceutical ingredient. Highly efficient downstream strategy of the target protein depyrogenation is discussed in the paper. The developed technology allows the production of the protein with high yield (approx. 110 g per 1000 L of the culture broth) and of high purity (estimated productivity is 75–100 g/month). The activity and purity of the active pharmaceutical ingredients produced for clinical trials were confirmed by different tests including ultra performance liquid chromatography, size exclusion chromatography, ELISA, SDS–PAGE, gel-clot LAL-test. Clinical trials were started in the Russian Federation. 相似文献
88.
D V Sviatoslavov N V Dmitrieva I N Petukhova E V Kulaga I I Shil'nikova S A D'iakova T A Kalinchuk E N Sokolova 《Antibiotiki i khimioterapii͡a》2006,51(11-12):37-45
The most important problem of onkology, i. e. antibiotic prophylaxis and treatment of postoperative infectious complications is touched upon in the paper. The current publications on the problem are discussed and the autors' experience on the treatment is described. The spectrum of the main pathogens of wound infections in patients with head and neck tumors is considered. 相似文献
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Krugliakov PV Sokolova IB Zin'kova NN Viĭde SV Cherednichenko NN Kisliakova TV Polyntsev DG 《Tsitologiia》2005,47(6):466-477
Mesenchymal stem cells (MSC) are resident pluripotent cells of bone marrow stroma. MSC are able to differentiate into chondroblasts, adipocytes, neurons, glia, cardiomyocytes, or osteoblasts. The problem of MSC usage in cell therapy of bone defects is widely discussed at present. The experiments were carried out using rats of inbred line Wistar-Kyoto. MSC were isolated from bone marrow and cultivated in vitro. Demineralized bone matrices (DBM) were obtained from parietal bones of rats and hens. Part of DBM was loaded with MSC. Bone defects were made in cranium parietal regions. DBM with or without MSC or metal plates were transplanted in these regions. It was shown that the application of MSC increased angiogenesis and osteogenesis in the damaged bone. The implantation of rat's DBM with MSC led to the formation of a full value bone. MSC suppressed inflammation, when transplantation of hen's DBM was carried out. The application of MSC always improved bone tissue regeneration. 相似文献