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91.
The partial nucleotide sequences of mitochondrial 16S rRNA gene were analyzed in five rodent cell lines, prior to the analysis of mutation spectrum in the gene. Total DNA was isolated from V79 and CHO-K1 cell lines from Chinese hamster and murine cell lines, Balb Y SV and PCC4 AG Cap, and the 3' terminal regions including the peptidyl transferase domain which is the target for chloramphenicol, a selective inhibitor of mitochondrial protein synthesis, were amplified by polymerase chain reaction (PCR) using two sets of primers and directly sequenced. In Chinese hamster cells, C to T transition at one site was observed in CHO-K1, and either A was deleted at the sequence of AA in all three cell lines, relative to the V79-cell sequence registered in GenBank. One G to A transition mutation in heteroplasmic state was observed in mouse PCC4 AG Cap cells which have chloramphenicol resistant phenotype, whereas there was no change in the Balb Y SV cell line, relative to the L-cell sequence. These mutation sites were located outside the peptidyl transferase domain. 相似文献
92.
Kazuhiko Hanada Satoko Akimoto Keiko Mitsui Masayuki Hashiguchi Hiroyasu Ogata 《Journal of chromatography. B, Analytical technologies in the biomedical and life sciences》1998,710(1-2):129-135
Enantiomers of disopyramide (DP), flecainide (FLC) and verapamil (VP) were extracted from rat plasma and tissues (brain, lung, heart, liver, kidney and muscle), followed by quantitative determination using enantioselective high-performance liquid chromatography with chiral stationary-phase columns. The recoveries of S-(+)- and R-(−)-DP from tissues were higher than 69%, and the within- and between-day coefficients of variation were very low (0.5 – 5.7%). The lower limits of detection in each tissue were less than 289 ng/g tissue. The recoveries of S-(+)- and R-(−)-FLC from tissues were higher than 88%, and the within- and between-day coefficients of variation were 1.2–6.0%. The lower limits of detection in each tissue were less than 37 ng/g tissue. The recoveries of S-(−)- and R-(+)-VP from tissues were higher than 80%, and the within- and between-day coefficients of variation were 0.5–6.2%. The lower limits of detection in each tissue were less than 51 ng/g tissue. The analytical methods established in this study will be suitable for determining the concentrations of the enantiomers of these anti-arrhythmic agents in rat plasma and tissues. 相似文献
93.
Koji Kawata Atsushi Iwai Daisuke Muramatsu Shiho Aoki Hirofumi Uchiyama Mitsuyasu Okabe Sumio Hayakawa Akinori Takaoka Tadaaki Miyazaki 《PloS one》2015,10(4)
A β-glucan produced by Aureobasidium pullulans (AP-PG) is consisting of a β-(1,3)-linked main chain with β-(1,6)-linked glucose side residues. Various β-glucans consisting of β-(1,3)-linked main chain including AP-PG are believed to exhibit anti-tumor activities, and actually, anti-tumor activities of AP-PG in mice have been demonstrated. In this study, we demonstrate that stimulation with AP-PG induces TRAIL expression in mouse and human macrophage-like cell lines. TRAIL is known to be a cytokine which specifically induces apoptosis in transformed cells, but not in untransformed cells. The expression of TRAIL mRNA after stimulation with AP-PG was increased in RAW264.7 cells, Mono Mac 6 cells, and macrophage-differentiated THP-1 cells. The mRNA expression of TNF-α and FasL is only weakly increased after stimulation with AP-PG. The induction activity of TRAIL by curdlan, a bacterial β-glucan, was very similar to that by AP-PG in RAW264.7 cells, but weaker in macrophage-differentiated THP-1 cells. Activation of caspases was found in HeLa cells after treatment with the supernatant of cultured medium from AP-PG-stimulated Mono Mac 6 cells, and was inhibited by the anti-TRAIL neutralizing antibody. These findings suggest that the stimulation with AP-PG effectively induces TRAIL in macrophages, and that it may be related to apoptosis induction of tumor cells. 相似文献
94.
Squalene synthase (SQS) catalyzes the first step of sterol/hopanoid biosynthesis in various organisms. It has been long recognized that SQSs share a common ancestor with carotenoid synthases, but it is not known how these enzymes selectively produce their own product. In this study, SQSs from yeast, human, and bacteria were independently subjected to directed evolution for the production of the C30 carotenoid backbone, dehydrosqualene. This was accomplished via high-throughput screening with Pantoea ananatis phytoene desaturase, which can selectively convert dehydrosqualene into yellow carotenoid pigments. Genetic analysis of the resultant mutants revealed various mutations that could effectively convert SQS into a “dehydrosqualene synthase.” All of these mutations are clustered around the residues that have been proposed to be important for NADPH binding. 相似文献
95.
Yubuki N Céza V Cepicka I Yabuki A Inagaki Y Nakayama T Inouye I Leander BS 《The Journal of eukaryotic microbiology》2010,57(6):554-561
Ultrastructural and molecular phylogenetic evidence indicate that the Parabasalia consists of seven main subgroups: the Trichomonadida, Honigbergiellida, Hypotrichomonadida, Tritrichomonadida, Cristamonadida, Spirotrichonymphida, and Trichonymphida. Only five species of free-living parabasalids are known: Monotrichomonas carabina, Ditrichomonas honigbergii, Honigbergiella sp., Tetratrichomonas undula, and Pseudotrichomonas keilini. Phylogenetic analyses show that free-living species do not form a clade and instead branch in several different positions within the context of their parasitic relatives. Because the diversity of free-living parabasalids is poorly understood, the systematics of these lineages is in a significant state of disarray. In order to better understand the phylogenetic distribution of free-living parabasalids, we sequenced the small subunit rDNA from three different strains reminiscent of P. keilini; the strains were isolated from different geographical locations: (1) mangrove sediments in Japan and (2) sediments in Cyprus. These data demonstrated that the free-living parabasalids P. keilini and Lacusteria cypriaca n. g., n. sp., form a paraphyletic assemblage near the origin of a clade consisting mostly of parasitic trichomonadids (e.g. Trichomonas vaginalis). This paraphyletic distribution of similar morphotypes indicates that free-living trichomonadids represent a compelling example of morphostasis that provides insight into the suite of features present in the most recent free-living ancestor of their parasitic relatives. 相似文献
96.
Naotaka Sekiyama Kyohei Arita Yoshihiro Ikeda Kohtaro Hashiguchi Mariko Ariyoshi Hidehito Tochio Hisato Saitoh Masahiro Shirakawa 《Proteins》2010,78(6):1491-1502
Post‐translational modification by small ubiquitin‐like modifier (SUMO) provides an important regulatory mechanism in diverse cellular processes. Modification of SUMO has been shown to target proteins involved in systems ranging from DNA repair pathways to the ubiquitin‐proteasome degradation system by the action of SUMO‐targeted ubiquitin ligases (STUbLs). STUbLs recognize target proteins modified with a poly‐SUMO chain through their SUMO‐interacting motifs (SIMs). STUbLs are also associated with RENi family proteins, which commonly have two SUMO‐like domains (SLD1 and SLD2) at their C terminus. We have determined the crystal structures of SLD2 of mouse RENi protein, Nip45, in a free form and in complex with a mouse E2 sumoylation enzyme, Ubc9. While Nip45 SLD2 shares a β‐grasp fold with SUMO, the SIM interaction surface conserved in SUMO paralogues does not exist in SLD2. Biochemical data indicates that neither tandem SLDs or SLD2 of Nip45 bind to either tandem SIMs from either mouse STUbL, RNF4 or to those from SUMO‐binding proteins, whose interactions with SUMO have been well characterized. On the other hand, Nip45 SLD2 binds to Ubc9 in an almost identical manner to that of SUMO and thereby inhibits elongation of poly‐SUMO chains. This finding highlights a possible role of the RENi proteins in the modulation of Ubc9‐mediated poly‐SUMO formation. Proteins 2010. © 2009 Wiley‐Liss, Inc. 相似文献
97.
Hiroyuki Matsuda Yasutaka Kurata Satoshi Matsuoka Akinori Noma 《Progress in biophysics and molecular biology》2010,103(1):102-110
We aimed to study kinetics of modulation by intracellular Mg2+ of cardiac gap junction (Mg2+ gate). Paired myocytes of guinea-pig ventricle were superfused with solutions containing various concentrations of Mg2+. In order to rapidly apply Mg2+ to one aspect of the gap junction, the non-junctional membrane of one of the pair was perforated at nearly the connecting site by pulses of nitrogen laser beam. The gap junction conductance (Gj) was measured by clamping the membrane potential of the other cell using two-electrode voltage clamp method. The laser perforation immediately increased Gj, followed by slow Gj change with time constant of 3.5 s at 10 mM Mg2+. Mg2+ more than 1.0 mM attenuated dose-dependently the gap junction conductance and lower Mg2+ (0.6 mM) increased Gj with a Hill coefficient of 3.4 and a half-maximum effective concentration of 0.6 mM. The time course of Gj changes was fitted by single exponential function, and the relationship between the reciprocal of time constant and Mg2+ concentration was almost linear. Based on the experimental data, a mathematical model of Mg2+ gate with one open state and three closed states well reproduced experimental results. One-dimensional cable model of thirty ventricular myocytes connected to the Mg2+ gate model suggested a pivotal role of the Mg2+ gate of gap junction under pathological conditions. 相似文献
98.
Xiaofeng Wu Akinori Akaike Hachiro Sugimoto 《Biochemical and biophysical research communications》2010,393(3):514-518
Reduction in or dysfunction of glutamate transporter 1 (GLT1) is linked to several neuronal disorders such as stroke, Alzheimer’s disease, and amyotrophic lateral sclerosis. However, the detailed mechanism underlying GLT1 regulation has not been fully elucidated. In the present study, we first demonstrated the effects of mammalian target of rapamycin (mTOR) signaling on GLT1 regulation. We prepared astrocytes cultured in astrocyte-defined medium (ADM), which contains several growth factors including epidermal growth factor (EGF) and insulin. The levels of phosphorylated Akt (Ser473) and mTOR (Ser2448) increased, and GLT1 levels were increased in ADM-cultured astrocytes. Treatment with a phosphatidylinositol 3-kinase (PI3K) inhibitor or an Akt inhibitor suppressed the phosphorylation of Akt (Ser473) and mTOR (Ser2448) as well as decreased ADM-induced GLT1 upregulation. Treatment with the mTOR inhibitor rapamycin decreased GLT1 protein and mRNA levels. In contrast, rapamycin did not affect Akt (Ser473) phosphorylation. Our results suggest that mTOR is a downstream target of the PI3K/Akt pathway regulating GLT1 expression. 相似文献
99.
Okuno M Minami K Okumachi A Miyawaki K Yokoi N Toyokuni S Seino S 《American journal of physiology. Endocrinology and metabolism》2007,292(1):E158-E165
We recently found that pancreatic acinar cells isolated from normal adult mouse can transdifferentiate into insulin-secreting cells in vitro. Using two different animal models of type 1 diabetes, we show here that insulin-secreting cells can also be generated from pancreatic acinar cells of rodents in the diabetic state with absolute insulin deficiency. When pancreatic acinar cells of streptozotocin-treated mice were cultured in suspension in the presence of epidermal growth factor and nicotinamide under low-serum condition, expressions of insulin genes gradually increased. In addition, expressions of other pancreatic hormones, including glucagon, somatostatin, and pancreatic polypeptide, were also induced. Analysis by the Cre/loxP-based direct cell lineage tracing system revealed that these newly made cells originated from amylase-expressing pancreatic acinar cells. Insulin secretion from the newly made cells was significantly stimulated by high glucose and other secretagogues. In addition, insulin-secreting cells were generated from pancreatic acinar cells of Komeda diabetes-prone rats, another animal model of type 1 diabetes. The present study demonstrates that insulin-secreting cells can be generated by transdifferentiation from pancreatic acinar cells of rodents in the diabetic state and further suggests that pancreatic acinar cells represent a potential source of autologous transplantable insulin-secreting cells for treatment of type 1 diabetes. 相似文献
100.
Nishimura K Segawa H Goto T Morishita M Masago A Takahashi H Ohmiya Y Sakaguchi T Asada M Imamura T Shimotono K Takayama K Yoshida T Nakanishi M 《The Journal of biological chemistry》2007,282(37):27383-27391
Persistent and stable expression of foreign genes has been achieved in mammalian cells by integrating the genes into the host chromosomes. However, this approach has several shortcomings in practical applications. For example, large scale production of protein pharmaceutics frequently requires laborious amplification of the inserted genes to optimize the gene expression. The random chromosomal insertion of exogenous DNA also results occasionally in malignant transformation of normal tissue cells, raising safety concerns in medical applications. Here we report a novel cytoplasmic RNA replicon capable of expressing installed genes stably without chromosome insertion. This system is based on the RNA genome of a noncytopathic variant Sendai virus strain, Cl.151. We found that this variant virus establishes stable symbiosis with host cells by escaping from retinoic acid-inducible gene I-interferon regulatory factor 3-mediated antiviral machinery. Using a cloned genome cDNA of Sendai virus Cl.151, we developed a recombinant RNA installed with exogenous marker genes that was maintained stably in the cytoplasm as a high copy replicon (about 4 x 10(4) copies/cell) without interfering with normal cellular function. Strong expression of the marker genes persisted for more than 6 months in various types of cultured cells and for at least two months in rat colonic mucosa without any apparent side effects. This stable RNA replicon is a potentially valuable genetic platform for various biological applications. 相似文献