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991.
Antivitamin K anticoagulants have been commonly used to control rodent pest all over the world for more than 50 years. These compounds target blood coagulation by inhibiting the vitamin K epoxide reductase (VKORC1), which catalyzes the reduction of vitamin K 2,3-epoxide to vitamin K. Resistance to anticoagulants has been reported in wild rat populations from different countries. From these populations, several mutations of the rVkorc1 gene have been reported. In this study, rat VKORC1 and its most frequent mutants L120Q-, L128Q-, Y139C-, Y139S- and Y139F-VKORC1 were expressed as membrane-bound proteins in Pichia pastoris and characterized by the determination of kinetic and inhibition parameters. The recombinant rVKORC1 showed similar properties than those of the native proteins expressed in the rat liver microsomes, validating the expression system as a good model to study the consequences of VKORC1 mutations. The determination of the inhibition parameters towards various antivitamin K anticoagulants demonstrated that mutations at Leu-120, Leu-128 and Tyr-139 confer the resistance to the first generation AVKs observed in wild rat populations. 相似文献
992.
993.
Ahmad B Mukarram Shah SM Khan H Hassan Shah SM 《Journal of enzyme inhibition and medicinal chemistry》2007,22(6):730-732
The crude methanolic extract and chloroform, ethyl acetate and n-butanol fractions of Teucrium royleanum were examined as inhibitors of actylcholinesterase, butyrylcholinesterase, lipoxygenase and urease. A significant enzyme inhibition activity (52-83%) was shown by the crude methanolic extract and its fractions against acetylcholinesterase, while low to outstanding enzyme inhibitory activity was shown (19-93%) against butyrylcholinesterase. The crude methanolic extract and its various fractions demonstrated low activity against lipoxygenase and inactive against urease. 相似文献
994.
The conformational stability of the homotetrameric Plasmodium falciparum beta-ketoacyl-ACP reductase (FabG) was determined by guanidinium chloride-induced isothermal and thermal denaturation. The reversible unfolding transitions were monitored by intrinsic fluorescence, circular dichroism (CD) spectroscopy and by measuring the enzyme activity of FabG. The denaturation profiles were analyzed to obtain the thermodynamic parameters associated with unfolding of the protein. The data confirm the simple A(4) <--> 4A model of unfolding, based on the corroboration of CD data by fluorescence transition and similar Delta G estimation for denaturation curves obtained at four different concentration of the FabG. Denaturation is well described by the linear extrapolation model for denaturant-protein interactions. In addition, the conformational stability (Delta G(s)) as well as the Delta C(p) for the protein unfolding is quite high, 22.68 kcal/mole and 5.83 kcal/(mole K), respectively, which may be a reflection of the relatively large size of the tetrameric molecule (Mr 120, 000) and a large buried hydrophobic core in the folded protein. This study provides a prototype for determining conformational stability of other members of the short-chain alcohol dehydrogenase/reductase superfamily of proteins to which PfFabG belongs. 相似文献
995.
Shah VR Koster MI Roop DR Spencer DM Wei L Li Q Schwartz RJ Chang J 《Genesis (New York, N.Y. : 2000)》2007,45(4):194-199
Expression of genes with tight and precise temporal and spatial control is desired in a wide variety of applications ranging from cultured cells and transgenic animals to gene therapy. While current inducible systems, such as RU486 and chemical inducers of dimerization (CID), have improved earlier inducible models (Gossen et al., 1995, Science. 268:1766-1769; Wang et al., 1994, Proc Natl Acad Sci USA 91:8180-8184), no single system is perfect at present. One potential drawback of these systems is leakage of transgene expression, causing limitations of each system. We have developed an inducible model containing both RU486 and CID systems, which in addition to inducing caspase activation, has potential applicability specifically to other genes encoding proteins that require a dimerization event for activation. This Double-Inducible Gene Activation System generates two barriers for the target gene expression and protein activation thereby minimizing leakage. 相似文献
996.
997.
Jourdes M Cardenas CL Laskar DD Moinuddin SG Davin LB Lewis NG 《Phytochemistry》2007,68(14):1932-1956
The lignin deficient double mutant of cinnamyl alcohol dehydrogenase (CAD, cad-4, cad-5 or cad-c, cad-d) in Arabidopsis thaliana [Sibout, R., Eudes, A., Mouille, G., Pollet, B., Lapierre, C., Jouanin, L., Séguin, A., 2005. Cinnamyl alcohol dehydrogenase-C and -D are the primary genes involved in lignin biosynthesis in the floral stem of Arabidopsis. Plant Cell 17, 2059-2076], was comprehensively examined for effects on disruption of native lignin macromolecular configuration; the two genes encode the catalytically most active CAD's for monolignol/lignin formation [Kim, S.-J., Kim, M.-R., Bedgar, D.L., Moinuddin, S.G.A., Cardenas, C.L., Davin, L.B., Kang, C., Lewis, N.G., 2004. Functional reclassification of the putative cinnamyl alcohol dehydrogenase multigene family in Arabidopsis. Proc. Natl. Acad. Sci., USA 101, 1455-1460]. The inflorescence stems of the double mutant presented a prostrate phenotype with dynamic modulus properties greatly reduced relative to that of the wild type (WT) line due to severe reductions in macromolecular lignin content. Interestingly, initially the overall pattern of phenolic deposition in the mutant was apparently very similar to WT, indicative of comparable assembly processes attempting to be duplicated. However, shortly into the stage involving (monomer cleavable) 8-O-4' linkage formation, deposition was aborted. At this final stage, the double mutant had retained a very limited ability to biosynthesize monolignols as evidenced by cleavage and release of ca. 4% of the monolignol-derived moieties relative to the lignin of the WT line. In addition, while small amounts of cleavable p-hydroxycinnamaldehyde-derived moieties were released, the overall frequency of (monomer cleavable) 8-O-4' inter-unit linkages closely approximated that of WT for the equivalent level of lignin deposition, in spite of the differences in monomer composition. Additionally, 8-5' linked inter-unit structures were clearly evident, albeit as fully aromatized phenylcoumaran-like substructures. The data are interpreted as a small amount of p-hydroxycinnamaldehydes being utilized in highly restricted attempts to preserve native lignin configuration, i.e. through very limited monomer degeneracy during template polymerization which would otherwise afford lignins proper in the cell wall from their precursor monolignols. The defects introduced (e.g. in the vascular integrity) provide important insight as to why p-hydroxycinnamaldehydes never evolved as lignin precursors in the 350,000 or so extant vascular plant species. It is yet unknown at present, however, as to what levels of lignin reduction can be attained in order to maintain the requisite properties for successful agronomic/forestry cultivation. Nor is it known to what extent, if any, such deleterious modulations potentially compromise plant defenses. Finally, prior to investigating lignin primary structure proper, it is essential to initially define the fundamental characteristics of the biopolymer(s) being formed, such as inter-unit frequency and lignin content, in order to design approaches to determine overall sequences of linkages. 相似文献
998.
999.
1000.
The purpose of this research was to compare the viscoelastic properties of several neutral and anionic polysaccharide polymers
with their mucociliary transport rates (MTR) across explants of ciliated bovine tracheal tissue to identify rheologic parameters
capable of predicting the extent of reduction in mucociliary transport. The viscoelastic properties of the polymer gels and
gels mixed with mucus were quantified using controlled stress rheometry. In general, the anionic polysaccharides were more
efficient at decreasing the mucociliary transport rate than were the neutral polymers, and a concentration threshold, where
no further decreases in mucociliary transport occurred with increasing polymer concentration, was observed for several of
the neutral polysaccharides. No single rheologic parameter (ν, G′, G″, tan δ, G*) was a good predictor of the extent of mucociliary transport reduction, but a combination of the apparent viscosity (ν),
tangent to the phase angle (tan δ), and complex modulus (G*) was found to be useful in the identification of formulations capable of decreasing MTR. The relative values of each of the
rheologic parameters were unique for each polymer, yet once the relationships between the rheologic parameters and mucociliary
transport rate reduction were determined, formulations capable of resisting mucociliary clearance could be rapidly optimized.
Published: April 20, 2007 相似文献