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61.
T. N. Erokhina E. A. Lazareva K. R. Richert-Pöggeler E. V. Sheval A. G. Solovyev S. Y. Morozov 《Biochemistry. Biokhimii?a》2017,82(1):60-66
Members of the genus Tobamovirus represent one of the best-characterized groups of plant positive, single stranded RNA viruses. Previous studies have shown that genomes of some tobamoviruses contain not only genes coding for coat protein, movement protein, and the cistron coding for different domains of RNA-polymerase, but also a gene, named ORF6, coding for a poorly conserved small protein. The amino acid sequences of ORF6 proteins encoded by different tobamoviruses are highly divergent. The potential role of ORF6 proteins in replication of tobamoviruses still needs to be elucidated. In this study, using biochemical and immunological methods, we have shown that ORF6 peptide is accumulated after infection in case of two isolates of Tobacco mosaic virus strain U1 (TMV-U1 common and TMV-U1 isolate A15). Unlike virus particles accumulating in the cytoplasm, the product of the ORF6 gene is found mainly in nuclei, which correlates with previously published data about transient expression of ORF6 isolated from TMV-U1. Moreover, we present new data showing the presence of ORF6 genes in genomes of several tobamoviruses. For example, in the genomes of other members of the tobamovirus subgroup 1, including Rehmannia mosaic virus, Paprika mild mottle virus, Tobacco mild green mosaic virus, Tomato mosaic virus, Tomato mottle mosaic virus, and Nigerian tobacco latent virus, sequence comparisons revealed the existence of a similar open reading frame like ORF6 of TMV. 相似文献
62.
Ekaterina A. Lazareva Alexander A. Lezzhov Tatiana V. Komarova Sergey Y. Morozov Manfred Heinlein Andrey G. Solovyev 《Molecular Plant Pathology》2017,18(5):611-624
Hibiscus green spot virus (HGSV) is a recently discovered and so far poorly characterized bacilliform plant virus with a positive‐stranded RNA genome consisting of three RNA species. Here, we demonstrate that the proteins encoded by the ORF2 and ORF3 in HGSV RNA2 are necessary and sufficient to mediate cell‐to‐cell movement of transport‐deficient Potato virus X in Nicotiana benthamiana. These two genes represent a specialized transport module called a ‘binary movement block’ (BMB), and ORF2 and ORF3 are termed BMB1 and BMB2 genes. In agroinfiltrated epidermal cells of N. benthamiana, green fluorescent protein (GFP)‐BMB1 fusion protein was distributed diffusely in the cytoplasm and the nucleus. However, in the presence of BMB2, GFP‐BMB1 was directed to cell wall‐adjacent elongated bodies at the cell periphery, to cell wall‐embedded punctate structures co‐localizing with callose deposits at plasmodesmata, and to cells adjacent to the initially transformed cell. Thus, BMB2 can mediate the transport of BMB1 to and through plasmodesmata. In general, our observations support the idea that cell‐to‐cell trafficking of movement proteins involves an initial delivery to membrane compartments adjacent to plasmodesmata, subsequent entry of the plasmodesmata cavity and, finally, transport to adjacent cells. This process, as an alternative to tubule‐based transport, has most likely evolved independently in triple gene block (TGB), double gene block (DGB), BMB and the single gene‐coded transport system. 相似文献
63.
V. V. Makarov E. A. Obraztsova A. G. Solovyev S. Yu. Morozov M. E. Taliansky I. V. Yaminsky N. O. Kalinina 《Biochemistry. Biokhimii?a》2010,75(6):752-758
The 63 kDa hordeivirus movement protein TGB1 of poa semilatent virus (the PSLV TGB1 protein) forms viral ribonucleoprotein
for virus transport within a plant. It was found using the dynamic laser light scattering technique that the internal domain
of TGB1 protein forms in vitro high molecular weight complexes. According to results of atomic force microscopy, a part of these complexes is represented
by globules of different sizes, while another part consists of extended filamentous structures. Similar properties are also
characteristic of the N-terminal half of the protein and are obviously due to its internal domain moiety. The data support
the hypothesis that upon viral ribonucleoprotein complex formation, the N-terminal half of the PSLV TGB1 protein plays a structural
role and exhibits the ability to form multimeric filamentous structures (the ability for self-assembly). 相似文献
64.
The structure of the DNA regions recognized by glucocorticoid-receptor complexes (GIRC) was analyzed using frequency matrices and a modified perceptron method. Some complementary conservative elements which may modulate the efficiency of GIRC binding were found at both sides of the previously established conserved nucleotide sequence (core) (Beato, M. et al. (1987) J. Steroid Biochem. 27, 9-14). A criterion based on the concurrent use of several perceptron matrices to search for the potential GIRC binding site sequences has been worked out. By applying this criterion 73 sites were identified in 28 sequences of glucocorticoid regulated genes and 7 sites were identified in 26 sequences independent from glucocorticoid regulation. 相似文献
65.
Shemyakina EA Erokhina TN Gorshkova EN Schiemann J Solovyev AG Morozov SY 《Biochimie》2011,93(4):742-748
Cell-to-cell movement of Poa semilatent virus (genus Hordeivirus) in infected plants is mediated by three viral ‘triple gene block’ (TGB) proteins. One of those termed TGBp3 is an integral membrane protein essential for intracellular transport of other TGB proteins and viral genomic RNA to plasmodesmata. TGBp3 targeting to plasmodesmata-associated sites is believed to involve an unconventional mechanism which does not employ endoplasmic reticulum-derived transport vesicles. Previously TGBp3 has been shown to contain a composite transport signal consisting of the central hydrophilic protein region which includes a conserved pentapeptide YQDLN and the C-terminal transmembrane segment. This study demonstrates that these TGBp3 structural elements have distinct functions in protein transport. The YQDLN-containing region is essential for TGBp3 incorporation into high-molecular-mass protein complexes. In transient expression assay formation of such complexes is necessary for entering the TGBp3-specific pathway of intracellular transport and protein delivery to plasmodesmata-associated sites. In virus-infected plants TGBp3 is also found predominantly in the form of high-molecular-mass complexes. When the complex-formation function of YQDLN-containing region is disabled by a mutation, targeting to plasmodesmata-associated sites can be complemented by a heterologous peptide capable of formation multimeric complexes. The C-terminal transmembrane segment is found to be an essential signal of TGBp3 intracellular transport to peripheral sites. 相似文献
66.
Makarova SS Minina EA Makarov VV Semenyuk PI Kopertekh L Schiemann J Serebryakova MV Erokhina TN Solovyev AG Morozov SY 《Biochimie》2011,93(10):1770-1778
Arabidopsis thaliana At-4/1 is the protein of unknown function capable of polar localization in plant cells and intercellular trafficking. In this work, we cloned cDNAs and chromosomal genes of At-4/1 orthologues from several Nicotiana species. Similarly to the 4/1 genes of A. thaliana and Oryza sativa, Nicotiana 4/1 genes have eight exons and seven introns but are considerably longer due to their larger introns. The allotetraploid genome of Nicotiana tabacum, which is known to consist of the ‘S genome’ originated from Nicotiana sylvestris and the ‘T genome’ derived from Nicotiana tomentosiformis, encodes two 4/1 genes. The T genome-encoded 4/1 gene, but not that of the S genome, contains a SINE-like transposable element in its intron 2. The 4/1 genes of Nicotiana hesperis and Nicotiana benthamiana lack such an element in the intron 2, but possess a related SINE-like sequence in their intron 4. Collectively, the sequence analysis data provide an insight into the organization of 4/1 genes in flowering plants and the patterns of evolution in the genus Nicotiana. The Nicotiana 4/1 proteins and those of other flowering plants show a significant level of sequence similarity. Computer-assisted analysis was further used to compare their predicted secondary structures. Several algorithms confidently predicted the presence of several coiled-coil domains occupying similar positions in different 4/1 proteins. Analysis of circular dichroism spectra carried out for bacterially expressed N. tabacum 4/1 protein (Nt-4/1) and its N- and C-terminally truncated mutants confirmed that the secondary structure of Nt-4/1 is generally alpha-helical. The C-terminal region of Nt-4/1 was found to undergo a partial proteolysis in Escherichia coli cells. Differential scanning calorimetry of Nt-4/1 protein and its mutants revealed three calorimetric domains most probably corresponding to the N-terminal, central, and C-terminal structural domains of the protein. 相似文献
67.
Atabekov JG Malyshenko SI Morozov YuS Taliansky ME Solovyev AG Agranovsky AA Shapka NA 《Philosophical transactions of the Royal Society of London. Series B, Biological sciences》1999,354(1383):629-635
The phenomenon of trans-complementation of cell-to-cell movement between plant positive-strand RNA viruses is discussed with an emphasis on tobamoviruses. Attention is focused on complementation between tobamoviruses (coding for a single movement protein, MP) and two groups of viruses that contain the triple block of MP genes and require four (potato virus X) or three (barley stripe mosaic virus) proteins for cell-to-cell movement. The highlights of complementation data obtained by different experimental approaches are given, including (i) double infections with movement-deficient (dependent) and helper viruses; (ii) infections with recombinant viral genomes bearing a heterologous MP gene; (iii) complementation of a movement-deficient virus in transgenic plants expressing the MP of a helper virus; and (iv) co-bombardment of plant tissues with the cDNAs of a movement-dependent virus genome and the MP gene of a helper virus. 相似文献
68.
69.
Solovieva ME Solovyev VV Kudryavtsev AA Trizna YA Akatov VS 《Free radical biology & medicine》2008,44(10):1846-1856
It has been found previously that vitamin B12b amplifies significantly the cytotoxic effects of ascorbic acid by catalyzing the formation of reactive oxygen species, and the antioxidant dithiothreitol (DTT), in contrast to catalase, does not prevent the cytotoxicity. Therefore, in this study we examined whether B12b is able to enhance the cytotoxicity of DTT. It was revealed that B12b strongly increases the cytotoxic effect of DTT. Vitamin B12b added to DTT catalyzed the generation and drastic accumulation of hydrogen peroxide in culture medium to a concentration of 260 microM within 7 min. The extracellular oxidative burst induced by the combination of B12b and DTT (DTT + B12b) was accompanied by intracellular oxidative stress, the destabilization of lysosomes, and damage to DNA. The accumulation of DNA lesions led to the initiation of apoptotic cell death, including the activation of caspase-3 and the release of cytochrome c. The antioxidants pyruvate and catalase completely prevented the DTT + B12b-induced oxidative stress and cell death. The iron chelators desferrioxamine and phenanthroline prevented the geno- and cytotoxic action of the combination although they did not reduce the exogenous oxidative burst, indicating a key role for intracellular iron in the cytotoxicity of the combination. Thus, vitamin B12b dramatically enhances the cytotoxicity of DTT, catalyzing the generation of hydrogen peroxide and inducing extra- and intracellular oxidative stress, early destabilization of lysosomes, and iron-dependent DNA damage. 相似文献
70.
A. V. Solovyev N. A. Barashkov M. S. Bady-Khoo M. V. Zytsar O. L. Posukh G. P. Romanov A. M. Rafailov N. N. Sazonov A. N. Alexeev L. U. Dzhemileva E. K. Khusnutdinova S. A. Fedorova 《Russian Journal of Genetics》2017,53(8):936-941
The c.-23+1G>A splice site mutation is one of the most frequent mutations of gene GJB2 (Cx26, 13q11-q12) associated with congenital non-syndromic autosomal recessive deafness. This mutation is characterized by a wide spread from Eastern Siberia and Central Asia to Eastern Europe, the Middle East, and South Asia. It is currently unknown whether this mutation spread over such a vast territory as a result of the founder effect or there were several local centers of origin of this mutation. For the first time, on the basis of the analysis of variability of nine SNP markers, five different haplotypes in deaf patients homozygous for mutation c.-23+1G>A from six Eurasian populations were reconstructed. The structure of the haplotypes revealed in Yakuts, Russians, Evenks, Tuvinians, Mongols, and Turks makes it possible to assume that mutation c.-23+1G>A (GJB2) could have spread across Eurasia as a result of the founder effect. The greatest diversity of haplotypes with c.-23+1G>A was found in patients from Mongolia, which probably refers to the earlier period of expansion of haplotypes carrying this mutation on the territory of Central Asia. 相似文献