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Experiments were carried out to study the relationship between binding affinity to the benzodiazepine receptor and pharmacological activity, especially anti-anxiety activity, of clinically useful benzodiazepines. In the in vitro experiments, fludiazepam showed the highest affinity to the benzodiazepine receptor with 4 times more potency than that of diazepam, which paralleled the in vivo activity. Diazepam and nimetazepam also bound with high affinities as expected from their in vivo activities. On the contrary, medazepam and cloxazolam showed extremely low affinities and oxazolam showed no affinity, although they showed moderate in vivo activity. However, their metabolites were found to have both high affinity and in vivo activities. These results strongly suggest that in the case of medazepam, cloxazolam and oxazolam, their metabolites may bind to receptor sites in the brain and then elicit pharmacological action. This conclusion was supported by the fact that a good correlation between the binding affinity and the anti-anxiety activity of the tested compounds was observed. 相似文献
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Molecular cloning of the cls gene responsible for cardiolipin synthesis in Escherichia coli and phenotypic consequences of its amplification. 总被引:4,自引:2,他引:2 下载免费PDF全文
The cls gene responsible for cardiolipin synthesis in Escherichia coli K-12 was cloned in a 5-kilobase-pair DNA fragment inserted in a mini-F vector, pML31, and then subcloned into a 2.0-kilobase-pair fragment inserted in pBR322. The initial selection of the gene was accomplished in a cls pss-1 double mutant that had lesions in both cardiolipin and phosphatidylserine synthases and required either the cls or the pss gene product for normal growth at 42 degrees C in a broth medium, NBY, supplemented with 200 mM sucrose. The cloned gene was identified as the cls gene by the recovery and amplification of both cardiolipin and cardiolipin synthase in a cls mutant as well as by the integration of a pBR322 derivative into its genetic locus at 27 min on the chromosome of a polA1 mutant. The maxicell analysis indicated that a protein of molecular weight 46,000 is the gene product. The cls gene is thus most likely the structural gene coding for cardiolipin synthase. Hybrid plasmids of high copy numbers containing the cls gene were growth inhibitory to pss-I mutants under the above selective conditions, whereas they inhibited neither the growth of pss-I mutants at 30 degrees C nor that of pss+ strains at any temperature. Amplification of cardiolipin synthase activity was observed, but was not proportional to the probable gene dosage (the enzyme activity was at most 10 times that in wild-type cells), and cardiolipin synthesis in vivo was at the maximum 1.5 times that in wild-type strains, implying the presence in E. coli cells of a mechanism that avoids cardiolipin overproduction, which is possibly disadvantageous to proper membrane functions. 相似文献
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The dielectric dispersion of isolated intact mitochondria in suspension has been measured between 10 kHz and 500 MHz. In isotonic KCI media at 4°C, the mitochondria maintained their characteristic ‘double membrane’ structure as examined by electron microscopy, and the observed dispersion curves were successfully simulated in terms of a superposition of two sub-dispersions having different characteristic frequencies and different permittivity magnitudes. Taking these observations into account we analyzed the dispersion data on the basis of a ‘double-shell’ model in which two concentric shells are meant to represent the mitochondrial outer and inner membranes. The analyses by a computerized curve-fitting method revealed that: (i) electric capacities for the outer and the inner membrane are 1.7 and 0.5 μF/cm2, respectively, (ii) relative permittivity for the inner compartment (or the equivalent homogeneous matrical space) = 50–60, (iii) outer compartment-to-external conductivity ratio = 0.4–0.6, and (iv) inner compartment-to-external conductivity ratio = 0.14. The implications of these parameter values are discussed with due attention paid to the limitations inherent in our ‘double-shell’ model approach. 相似文献
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Glycolate formation catalyzed by spinach leaf transketolase utilizing the superoxide radical 总被引:2,自引:0,他引:2
A homogeneous preparation of transketolase was obtained from spinach leaf; the specific enzyme activity was 9.5 mumolo of glyceraldehyde-3-P formed (mg of protein)-1 min-1, when xylulose-5-P and ribose-5-P were used as the donor and acceptor, respectively, of the ketol residue. Transketolase catalyzed the formation of glycolate from fructose-6-P coupled with the O2- -generating system of xanthine-xanthine oxidase. The addition of superoxide dismutase (145 units) or 1,2-dihydroxybenzene-3,5-disulfonic acid (Tiron) (5 mM), both O2- scavengers, to the reaction system inhibited glycolate formation 72 and 58%, respectively. The reacton was not inhibited by catalase. Mannitol, an .OH scavenger, and beta-carotene and 1,4-diazobicyclo[2.2.2]octane, 1O2 scavengers, showed little or no inhibitory effects. The rate of glycolate formation catalyzed by the transketolase system was measured in a coupled reaction with a continuous supply of KO2 dissolved in dimethyl sulfoxide, used as an O2- -generating system. The optimum pH of the reaction was above pH 8.5. The second-order rate constant for the reaction between transketolase and O2-, determined by the competition for O2- between nitroblue tetrazolium (NBT) and transketolase, was 1.0 X 10(6) M-1 s-1. Transketolase showed an inhibitory effect on the O2- -dependent reduction of NBT only if the reaction mixture was previously incubated with ketol donors such as fructose-6-P, xylulose-5-P, or glycolaldehyde. The results suggest the possibility that transketolase catalyzes O2- -dependent glycolate formation under increased steady-state levels of O2- in the chloroplast stroma. 相似文献
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The kinetic changes of hemopoietic stem cells in bone marrow and spleen were compared between lethal Plasmodium berghei- and non-lethal P. yoelii 17x-infected mice. P. yoelii 17x-infected mice showed more severe splenomegaly than those infected with P. berghei. P. yoelii 17x-infected mice also showed a greater degree of sustained increase in number of multipotent hemopoietic stem cells (colony-forming units in spleen: CFU-S) and committed stem cells for granulocytes and macrophages (CFU-GM) and for erythrocytes (CFU-E) than P. berghei-infected mice. Such an increase was predominantly seen in the spleen of P. yoelii 17x-infected mice. In P. berghei-infected mice, the number of CFU-S, CFU-GM and also CFU-E only transiently increased and then decreased to a subnormal level at the late stage of infection. The proportion of cycling CFU-S was higher in P. berghei-infected mice than in P. yoelii 17x-infected mice. The IL-3 producing activity per spleen was much higher in P. yoelii 17x-infected than in P. berghei-infected mice at any point in time during the infection. Thus, hemopoietic changes seen after malaria infection seem to be closely related to the pathogenicity of the malaria parasite. 相似文献
8.
Downregulation of p‐COUMAROYL ESTER 3‐HYDROXYLASE in rice leads to altered cell wall structures and improves biomass saccharification 下载免费PDF全文
Yuri Takeda Yuki Tobimatsu Steven D. Karlen Taichi Koshiba Shiro Suzuki Masaomi Yamamura Shinya Murakami Mai Mukai Takefumi Hattori Keishi Osakabe John Ralph Masahiro Sakamoto Toshiaki Umezawa 《The Plant journal : for cell and molecular biology》2018,95(5):796-811
p‐Coumaroyl ester 3‐hydroxylase (C3′H) is a key enzyme involved in the biosynthesis of lignin, a phenylpropanoid polymer that is the major constituent of secondary cell walls in vascular plants. Although the crucial role of C3′H in lignification and its manipulation to upgrade lignocellulose have been investigated in eudicots, limited information is available in monocotyledonous grass species, despite their potential as biomass feedstocks. Here we address the pronounced impacts of C3′H deficiency on the structure and properties of grass cell walls. C3′H‐knockdown lines generated via RNA interference (RNAi)‐mediated gene silencing, with about 0.5% of the residual expression levels, reached maturity and set seeds. In contrast, C3′H‐knockout rice mutants generated via CRISPR/Cas9‐mediated mutagenesis were severely dwarfed and sterile. Cell wall analysis of the mature C3′H‐knockdown RNAi lines revealed that their lignins were largely enriched in p‐hydroxyphenyl (H) units while being substantially reduced in the normally dominant guaiacyl (G) and syringyl (S) units. Interestingly, however, the enrichment of H units was limited to within the non‐acylated lignin units, with grass‐specific γ‐p‐coumaroylated lignin units remaining apparently unchanged. Suppression of C3′H also resulted in relative augmentation in tricin residues in lignin as well as a substantial reduction in wall cross‐linking ferulates. Collectively, our data demonstrate that C3′H expression is an important determinant not only of lignin content and composition but also of the degree of cell wall cross‐linking. We also demonstrated that C3′H‐suppressed rice displays enhanced biomass saccharification. 相似文献
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Diacylglycerol kinase (DGK) η translocates from the cytoplasm to punctate vehicles via osmotic shock. Apoptosis signal-regulating kinase (ASK) 3 (MAP kinase kinase kinase (MAPKKK) 15) is also reported to respond to osmotic shock. Therefore, in the present study, we examined the subcellular localization of DGKη and ASK3 expressed in COS-7 cells under osmotic stress. We found that DGKη was almost completely colocalized with ASK3 in punctate structures in response to osmotic shock. In contrast, DGKδ, which is closely related to DGKη structurally, was not colocalized with ASK3, and DGKη failed to colocalize with another MAPKKK, C-Raf, even under osmotic stress. The structures in which DGKη and ASK3 localized were not stained with stress granule makers. Notably, DGKη strongly interacted with ASK3 in an osmotic shock-dependent manner. These results indicate that DGKη and ASK3 undergo osmotic shock-dependent colocalization and associate with each other in specialized structures. 相似文献