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Calcium control of glycogen synthase activities in mouse diaphragms, rat adipocytes and rat hepatocytes 总被引:1,自引:0,他引:1
The following article provides evidence that cellular calcium controls the activity of glycogen synthase in all three major glycogen storage tissues; muscle, fat, and liver. Depletion of cellular calcium resulted in a moderate increase of glycogen synthase %I activities in intact mouse diaphragms, in isolated rat adipocytes, and in rat hepatocytes. The increase in %I activity of glycogen synthase was more pronounced when the uridine di-phosphoglucose concentration in the glycogen synthase assay was lowered from 4.4 mM to 0.2 mM. Calcium depletion resulted in an approximately two-fold decrease in the Ka values for glucose-6-phosphate in all three tissues. The activities of glycogen synthase also correlated well with the content of cell-associated calcium in rat hepatocytes. The glucose-6-phosphate independent activities of glycogen synthase in extracts of calcium-replete and calcium-depleted tissue approached the same value following the exposure to crude phosphoprotein phosphatase. The activities of glycogen phosphorylase decreased in calcium-depleted tissues and cells. Insulin stimulated the activity of glycogen synthase in muscle and fat in the absence of added sugar and in the absence of extracellular calcium. It is concluded that glycogen synthase is under the control of calcium in the three main glycogen storage tissues. The actions of calcium are probably mediated through the actions of calcium-sensitive protein kinase(s). 相似文献
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We studied the interaction of alpha 2-HS-glycoprotein with immobilized Cibacron blue F3-GA (Blue A) and Procion red HE-3B (Red A). When whole plasma was applied on the Blue A, alpha 2-HS-glycoprotein remained unbound, together with other plasma proteins. In contrast, when this fraction was applied on the Red A, alpha 2-HS-glycoprotein was shown to bind tightly and was eluted with a linear sodium chloride gradient between 0.5 and 0.8 M. This proved to be a useful two-step technique for the purification of alpha 2-HS-glycoprotein. Further characterization revealed that the protein appeared homogeneous by immunoelectrophoresis and SDS-polyacrylamide gel electrophoresis with yields greater than 30%. A small (less than 5%) but significant fraction of alpha 2-HS-glycoprotein with a same molecular weight as the native protein was consistently found in the wash of the Red A column, and may correspond to alpha 2-HS-glycoprotein bound to a yet unidentified ligand. 相似文献
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Involvement of purinergic system in the release of cytokines by macrophages exposed to glioma‐conditioned medium 下载免费PDF全文
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Emily J Fleming Ivona Cetini? Clara S Chan D Whitney King David Emerson 《The ISME journal》2014,8(4):804-815
Despite over 125 years of study, the factors that dictate species dominance in neutrophilic iron-oxidizing bacterial (FeOB) communities remain unknown. In a freshwater wetland, we documented a clear ecological succession coupled with niche separation between the helical stalk-forming Gallionellales (for example, Gallionella ferruginea) and tubular sheath-forming Leptothrix ochracea. Changes in the iron-seep community were documented using microscopy and cultivation-independent methods. Quantification of Fe-oxyhydroxide morphotypes by light microscopy was coupled with species-specific fluorescent in situ hybridization (FISH) probes using a protocol that minimized background fluorescence caused by the Fe-oxyhydroxides. Together with scanning electron microscopy, these techniques all indicated that Gallionellales dominated during early spring, with L. ochracea becoming more abundant for the remainder of the year. Analysis of tagged pyrosequencing reads of the small subunit ribosomal RNA gene (SSU rRNA) collected during seasonal progression supported a clear Gallionellales to L. ochracea transition, and community structure grouped according to observed dominant FeOB forms. Axis of redundancy analysis of physicochemical parameters collected from iron mats during the season, plotted with FeOB abundance, corroborated several field and microscopy-based observations and uncovered several unanticipated relationships. On the basis of these relationships, we conclude that the ecological niche of the stalk-forming Gallionellales is in waters with low organic carbon and steep redoxclines, and the sheath-forming L. ochracea is abundant in waters that contain high concentrations of complex organic carbon, high Fe and Mn content and gentle redoxclines. Finally, these findings identify a largely unexplored relationship between FeOB and organic carbon. 相似文献