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81.
Whole genome analysis of Vietnamese G2P[4] rotavirus strains possessing the NSP2 gene sharing an ancestral sequence with Chinese sheep and goat rotavirus strains 下载免费PDF全文
Loan Phuong Do Toyoko Nakagomi Punita Gauchan Miho Kaneko Chantal Agbemabiese Anh Duc Dang Osamu Nakagomi 《Microbiology and immunology》2015,59(10):605-613
Because imminent introduction into Vietnam of a vaccine against Rotavirus A is anticipated, baseline information on the whole genome of representative strains is needed to understand changes in circulating strains that may occur after vaccine introduction. In this study, the whole genomes of two G2P[4] strains detected in Nha Trang, Vietnam in 2008 were sequenced, this being the last period during which virtually no rotavirus vaccine was used in this country. The two strains were found to be > 99.9% identical in sequence and had a typical DS‐1 like G2‐P[4]‐I2‐R2‐C2‐M2‐A2‐N2‐T2‐E2‐H2 genotype constellation. Analysis of the Vietnamese strains with > 184 G2P[4] strains retrieved from GenBank/EMBL/DDBJ DNA databases placed the Vietnamese strains in one of the lineages commonly found among contemporary strains, with the exception of the NSP2 and NSP4 genes. The NSP2 genes were found to belong to a previously undescribed lineage that diverged from Chinese sheep and goat rotavirus strains, including a Chinese rotavirus vaccine strain LLR with 95% nucleotide identity; the time of their most recent common ancestor was 1975. The NSP4 genes were found to belong, together with Thai and USA strains, to an emergent lineage (VIII), adding further diversity to ever diversifying NSP4 lineages. Thus, there is a need to enhance surveillance of locally‐circulating strains from both children and animals at the whole genome level to address the effect of rotavirus vaccines on changing strain distribution. 相似文献
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Miho Suzuki Ichiro Sakata Takafumi Sakai Hiroaki Tomioka Koichi Nishigaki Marc Tramier Maïté Coppey-Moisan 《Analytical biochemistry》2015
Cytometry is a versatile and powerful method applicable to different fields, particularly pharmacology and biomedical studies. Based on the data obtained, cytometric studies are classified into high-throughput (HTP) or high-content screening (HCS) groups. However, assays combining the advantages of both are required to facilitate research. In this study, we developed a high-throughput system to profile cellular populations in terms of time- or dose-dependent responses to apoptotic stimulations because apoptotic inducers are potent anticancer drugs. We previously established assay systems involving protease to monitor live cells for apoptosis using tunable fluorescence resonance energy transfer (FRET)-based bioprobes. These assays can be used for microscopic analyses or fluorescence-activated cell sorting. In this study, we developed FRET-based bioprobes to detect the activity of the apoptotic markers caspase-3 and caspase-9 via changes in bioprobe fluorescence lifetimes using a flow cytometer for direct estimation of FRET efficiencies. Different patterns of changes in the fluorescence lifetimes of these markers during apoptosis were observed, indicating a relationship between discrete steps in the apoptosis process. The findings demonstrate the feasibility of evaluating collective cellular dynamics during apoptosis. 相似文献
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O6-Methylguanine DNA methyltransferase (MGMT) cancels the anticancer effect of temozolomide (drug for glioblastoma), which introduces methylation to DNA. Therefore, developing an MGMT inhibitor is a promising strategy for the treatment of this cancer. For this purpose, a sensitive detection method that does not depend on the conventional radioisotope (RI) method was developed. This was realized by a fluorescence-based method that measured the amount of cleavable restriction sites demethylated by the action of MGMT; this method was enhanced by introducing a polymerase chain reaction (PCR) amplification step. As an assay of enzyme activity, 20-fold higher sensitivity (subnanomolar) was attained compared with our and others’ fluorescence-based approaches. 相似文献
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Tsuji-Ueno S Komatsu M Iguchi K Takahashi M Yoshino S Suzuki M Nemoto N Nishigaki K 《Protein and peptide letters》2011,18(6):642-650
Recent studies have been supporting that the generation of Aβ42 oligomers is responsible for Alzheimer's disease. Therefore, those peptides which bind to Aβ42 are scientifically interesting and can be possible candidates for the diagnosis and therapy of Alzheimer's disease. A systemic in vitro evolution, developed recently and the designated progressive library method (PLM), was applied to obtain Ab42-binding aptamers peptides. As a result, high affinity peptide aptamers made of 8 or 9 amino acids could be identified by this approach, endorsing the methodological effectiveness. Namely, the selection products from the secondary library of diversified peptides, which was constructed based on the information obtained from the primary library selection, were confirmed to be superior to those selected from the primary library as had been reported previously. The affinities of those peptides measured by SPR (surface plasmon resonance) were comparable to or higher than that of those peptides so far reported (K(d) of 10??). The other peptides selected were confirmed of their binding by a novel mode of gel shift assay (fluorescence enhancement caused by the binding). Thus, novel Aβ42-binding peptides with high affinity were provided for the future Alzheimer's disease study. The demonstration of the effectiveness of the systemic in vitro evolution of PLM is very encouraging for the study of identifying novel functional peptides. 相似文献
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To understand the physiological basis of methanogenic archaea living on interspecies H(2) transfer, the protein expression of a hydrogenotrophic methanogen, Methanothermobacter thermautotrophicus strain ΔH, was investigated in both pure culture and syntrophic coculture with an anaerobic butyrate oxidizer Syntrophothermus lipocalidus strain TGB-C1 as an H(2) supplier. Comparative proteomic analysis showed that global protein expression of methanogen cells in the model coculture was substantially different from that of pure cultured cells. In brief, in syntrophic coculture, although methanogenesis-driven energy generation appeared to be maintained by shifting the pathway to the alternative methyl coenzyme M reductase isozyme I and cofactor F(420)-dependent process, the machinery proteins involved in carbon fixation, amino acid synthesis, and RNA/DNA metabolisms tended to be down-regulated, indicating restrained cell growth rather than vigorous proliferation. In addition, our proteome analysis revealed that α subunits of proteasome were differentially acetylated between the two culture conditions. Since the relevant modification has been suspected to regulate proteolytic activity of the proteasome, the global protein turnover rate could be controlled under syntrophic growth conditions. To our knowledge, the present study is the first report on N-acetylation of proteasome subunits in methanogenic archaea. These results clearly indicated that physiological adaptation of hydrogenotrophic methanogens to syntrophic growth is more complicated than that of hitherto proposed. 相似文献