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81.
Aleksandrova MA Pavlova GV Revishchin AV Bashkirov VN Modestova EA Evgen'ev MB Saburina IN Mertsalov IB Vengrova SP Korochkin LI 《Genetika》2000,36(11):1553-1560
A transgenic line of Drosophila melanogaster was selected which carried the following genes: Delta, lacZ (for bacterial galactosidase), and human GDNF (for glial cell line-derived neurotrophic factor). Drosophila neuroectodermal embryonic cells were transplanted with the embryonic neurohomografts into the occipital brain region of an adult rat. Xenografts were found to block scar formation at the graft-host tissue boundary, stimulated homograft development (so that it was twice as large as the control homograft transplanted alone with no xenograft added), and noticeably improved vascularization of the homograft area. 相似文献
82.
Multiple interactions among the components of the recombinational DNA repair system in Schizosaccharomyces pombe 总被引:1,自引:0,他引:1
Schizosaccharomyces pombe Rhp55 and Rhp57 are RecA-like proteins involved in double-strand break (DSB) repair. Here we demonstrate that Rhp55 and Rhp57 proteins strongly interact in vivo, similar to Saccharomyces cerevisiae Rad55p and Rad57p. Mutations in the conserved ATP-binding/hydrolysis folds of both the Rhp55 and Rhp57 proteins impaired their function in DNA repair but not in cell proliferation. However, when combined, ATPase fold mutations in Rhp55p and Rhp57p resulted in severe defects of both functions, characteristic of the deletion mutants. Yeast two-hybrid analysis also revealed other multiple in vivo interactions among S. pombe proteins involved in recombinational DNA repair. Similar to S. cerevisiae Rad51p-Rad54p, S. pombe Rhp51p and Rhp54p were found to interact. Both putative Rad52 homologs in S. pombe, Rad22p and Rti1p, were found to interact with the C-terminal region of Rhp51 protein. Moreover, Rad22p and Rti1p exhibited mutual, as well as self-, interactions. In contrast to the S. cerevisiae interacting pair Rad51p-Rad55p, S. pombe Rhp51 protein strongly interacted with Rhp57 but not with Rhp55 protein. In addition, the Rti1 and Rad22 proteins were found to form a complex with the large subunit of S. pombe RPA. Our data provide compelling evidence that most, but not all, of the protein-protein interactions found in S. cerevisiae DSB repair are evolutionarily conserved. 相似文献
83.
Sergienko OV Liashchuk AM Aksenova EI Galushkina ZM Poletaeva NN Sharapova NE Semikhin AS Kotnova AR Veselov AM Bashkirov VN Kulikova NL Khlebnikov VS Kondrat'eva TK Kariagina-Zhulina AS Apt AS Lunin VG Gintsburg AL 《Molekuliarnaia genetika, mikrobiologiia i virusologiia》2012,(1):16-20
Protein genes Ag85A, Esat-6, and Cfp10 of Mycobacterium tuberculosis were sequenced using the database GenBank to implement selection and synthesis of primer pairs of given genes. PCR was used to obtain target amplicons of the genes. Chromosome DNA of M. tuberculosis H37Rv was used as the DNA amplification matrix. The PCR products were obtained using the plasmid pQE6, cloned, and amplified in the Escherichia coli M15 strain. Chimere products containing mycobacterial genes and cellulose binding protein domain (CBD), were obtained using the plasmid treated with restriction endonucleases. CBD fragment obtained using similar treatment of the ptt10 plasmid. The plasmids containing merged sequences of mycobacterial genes-antigenes and CBD were selected. The 3 mycobacterial genes were expressed in the E. coli M15 cells resulting in biosynthesis of corresponding recombinant proteins of expected molecular weight. Concentration of CBD, Cfp10-CBD, Ag85A-CBD, and ESAT6-CBD was 20%, 15%, and 15% total protein, respectively. The resulting chimere proteins provide high affinity for cellulose and high stability. Immobilization of CBD-containing recombinant proteins proceeds as one-stage process providing target protein purification and adsorption on cellulose. The vaccines produced using this technology are inexpensive because of low cost of cellulose sorbents as well as simultaneous use of cellulose for purification and immobilization of protein. Many cellulose preparations are not toxic, biocompatible, and widely used in medicine. 相似文献
84.
Kirillov MIu Markov AP Lopyrev IV Pankratova VN Levitskiĭ SA Bashkirov VN Smirnov GB Kruglov AN Osadchaia VA Frolova GP Barmina GV Morozova OA Kosoy MY 《Molekuliarnaia genetika, mikrobiologiia i virusologiia》2007,(1):8-15
The primer systems for the PCR detection of four house-keeping genes of bartonellae in clinical material were developed and tested. The tactics of the species RFLP typing was also developed and tested. The scheme of the species RFLP typing of bartonellae was tested using as an example two strains for the first time isolated in Russia from patients with endocarditis and fever of uncertain origin. The results of the typing were supported by sequencing of the amplicons obtained. According to the sequencing the isolates were attributed to the sub species Bartonella vinsonii, subsp. arupensis. The necessity of molecular epidemiological analysis of bartonelloses in Russia was substantiated. 相似文献
85.
86.
The location of oxolinis acid-induced gyrase cleavage sites on pBR322 and pUB110 plasmid DNA in Bacillus subtilis cells has been studied and established. The treated Bacillus subtilis protoplasts were used in the study. Coordinates of the gyrase cleavage sites were compared to the location of the illegitimate recombination sites precisely mapped on the plasmid genomes. The obtained data indicate involvement of the DNA gyrase in formation of a fraction of recombinants in Bacillus subtilis. 相似文献
87.
D.V. Ivchenkov P.I. Kuzmin T.R. Galimzyanov A.V. Shnyrova P.V. Bashkirov V.A. Frolov 《生物化学与生物物理学报:生物膜》2021,1863(10):183677
Membrane nanotubes (NTs) and their networks play an important role in intracellular membrane transport and intercellular communications. The transport characteristics of the NT lumen resemble those of conventional solid-state nanopores. However, unlike the rigid pores, the soft membrane wall of the NT can be deformed by forces driving the transport through the NT lumen. This intrinsic coupling between the NT geometry and transport properties remains poorly explored. Using synchronized fluorescence microscopy and conductance measurements, we revealed that the NT shape was changed by both electric and hydrostatic forces driving the ionic and solute fluxes through the NT lumen. Far from the shape instability, the strength of the force effect is determined by the lateral membrane tension and is scaled with membrane elasticity so that the NT can be operated as a linear elastic sensor. Near shape instabilities, the transport forces triggered large-scale shape transformations, both stochastic and periodic. The periodic oscillations were coupled to a vesicle passage along the NT axis, resembling peristaltic transport. The oscillations were parametrically controlled by the electric field, making NT a highly nonlinear nanofluidic circuitry element with biological and technological implications. 相似文献
88.
89.
A. F. Salakhova G. V. Savchenko F. K. Khasanov O. V. Chepurnaya V. G. Korolev V. I. Bashkirov 《Russian Journal of Genetics》2005,41(6):593-601
Repair of DNA double-strand break (DSB) is an evolutionary conserved Rad51-mediated mechanism. In yeasts, Rad51 paralogs, Saccharomyces cerevisiae Rad55-Rad57 and Schizosaccharomyces pombe Rhp55-Rhp57 are mediators of the nucleoprotein Rad51 filament formation. As shown in this work, a novel Rad51Sp-dependent pathway of DSB repair acts in S. pombe parallel to the pathway mediated by Rad51 paralogs. A new gene dds20
+ that controls this pathway was identified. The overexpression of dds20
+ partially suppresses defects of mutant rhp55Δ in DNA repair. Cells of dds20Δ manifest hypersensitivity to a variety of genotoxins. Epistatic analysis revealed that dds20
+ is a gene of the recombinational repair group. The role of Dds20 in repair of spontaneous damages occurring in the process of replication and mating-type switching remains unclear. The results obtained suggest that Dds20 has functions beyond the mitotic S phase. The Dds20 protein physically interacts with Rhp51(Rad51Sp). Dds20 is assumed to operate at early recombinational stages and to play a specific role in the Rad51 protein filament assembly differing from that of Rad51 paralogs.__________Translated from Genetika, Vol. 41, No. 6, 2005, pp. 736–745.Original Russian Text Copyright © 2005 by Salakhova, Savchenko, Khasanov, Chepurnaya, Korolev, Bashkirov. 相似文献
90.