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1.
Insulin release from a cloned hamster B-cell line (HIT-T15). The effects of glucose, amino acids, sulphonylureas and colchicine 总被引:1,自引:0,他引:1
D G Lambert K Hughes T W Atkins 《Biochemical and biophysical research communications》1986,140(2):616-625
Insulin release from statically incubated HIT-T15 cells was maximally stimulated by glucose, L-arginine and L-leucine. L-arginine stimulated insulin release in the absence of glucose. Glucose induced insulin release was potentiated by the addition of L-leucine, L-arginine and the two in combination. Both glibenclamide and chlorpropamide stimulated insulin release from HIT-T15 cells. Glibenclamide was the more potent and equivalent in insulinotrophic action to 7.5 mmol/l glucose. Only chlorpropamide significantly potentiated glucose induced insulin release. Perifused HIT-T15 cells produced a reproducible biphasic insulin response to glucose challenge which was characterised by a pronounced and sustained first phase and a reduced second phase. The stimulation of phase I by glibenclamide alone and the inhibition of phase II of glucose induced insulin release by colchicine suggested the presence of a readily available pool of insulin granules which was not rapidly restored by insulin biosynthesis and granule margination. 相似文献
2.
The kinetics of NADH consumption, oxygen uptake, and hydrogen peroxide production have been studied for norcamphor metabolism by cytochrome P-450cam. The kinetic deuterium isotope effects on these processes, with specifically deuteriated norcamphor, are 0.77, 1.22, and 1.16, respectively. Steady-state UV-visible spectroscopy indicates that transfer of the second electron to the dioxy ferrous P-450 is the rate-limiting step, as it is when camphor is the substrate. The inverse deuterium isotope effect for NADH consumption is consistent with an isotope-dependent branching between monooxygenase and oxidase activity, where these reactivities differ in their NADH:oxygen stoichiometries. However, no isotope-dependent redistribution of steady-state intermediates was detected by isotopic difference UV-visible spectroscopy in the presence of norcamphor. The kinetic isotope effects and steady-state spectral results suggest that the high-valent iron-oxo hydroxylating intermediate [FeO]3+ is reduced by NADH and the physiological electron-transfer proteins to afford water. 相似文献
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A highly sensitive method of ultrastructural-immunoperoxidase staining was developed for use with monoclonal antibodies which have been raised in this laboratory to a variety of antigens of the human kidney. Because of the susceptibility of the antigens to fixation and processing, a four layer, pre-embedding method of staining was used. Results confirmed and clarified previously reported light microscopy results, indicating that an antigen recognized by the PHM5 antibody was found on the podocyte cell membrane within the glomerulus and was not present within the glomerular basement membrane. The antigen was also present on the extraglomerular endothelial cell membrane. The study also demonstrated the presence of an antigen specific to endothelial cells throughout the renal cortex, and gave further insight into the precise localization of glomerular basement membrane components including fibronectin. The method of staining is now being used together with detailed ultrastructural studies to identify the cells produced from isolated glomeruli in tissue culture. 相似文献
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Blood coagulation factor X (FX) is converted to its active form (FXa) by a membrane bound multi-protein enzyme complex, comprised of factor VIII (FVIII), factor IXa (FIXa) and FX. Characterization of the molecular forces involved in the association of these proteins with phospholipids is crucial to understanding how these proteins bind to the lipid milieux of physiological membranes. In this report, the molecular forces involved in the association of FVIII, FIXa or FX with phospholipid vesicles (PLV) were characterized by ligand affinity chromatographic analyses. Treating FVIII-affinity columns with agents that disrupt electrostatic interactions caused elution of 15.2% of the total bound PLV, while agents that disrupt hydrophobic interactions caused elution of 84.8% of the total bound PLV. These results demonstrate that the association of PLV with FVIII is primarily hydrophobic. In contrast, the association of PLV with FIXa or FX is largely the result of electrostatic forces. This was established by observing that 71.3% and 78.9% of the total bound PLV was eluted from FIXa- and FX-affinity columns, respectively, by agents that disrupt electrostatic interactions. Of the total bound PLV, 28.7% and 21.2% were eluted from FIXa- and FX-affinity columns, respectively, by agents that disrupt hydrophobic interactions. These data demonstrate that hydrophobic forces play a heretofore unrecognized role in the association of PLV with FIXa or FX. 相似文献
7.
C. A. Atkins 《Plant and Soil》1987,100(1-3):157-169
Summary Nitrogen (N2) fixed by Rhizobium bacteroids in the legume nodule is excreted as ammonia to the surrounding host cell where it is efficiently
assimilated into the amide group of glutamine. Generally glutamine is a minor exported solute of nitrogen, being further metabolised
to asparagine in temperate species and to the ureides, allantoin and allantoic acid in tropical species. These solutes serve
as the principal translocated forms of nitrogen in xylem. Compartmentalisation of the pathways of nitrogen metabolism and
the role of ammonia in regulation of their activity is examined in nodules of both asparagine-forming (Lupinus albus L.) and ureide-forming (Vigna unguiculata L. Walp) symbioses. 相似文献
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9.
Inhibition of nodule functioning in cowpea by a xanthine oxidoreductase inhibitor, allopurinol 总被引:4,自引:2,他引:2 下载免费PDF全文
Allopurinol (1H-pyrazolo-[3,4-d]pyrimidine-4-ol), an inhibitor of xanthine oxidation in ureide-producing nodulated legumes, was taken up from the rooting medium, translocated in xylem, and transferred to nodules of both the ureide-forming cowpea (Vigna unguiculata L. Walp.) and the amide-forming white lupin (Lupinus albus L.). Cowpea suffered severe nitrogen deficiency, extreme chlorosis, and reduced growth, whereas lupin was unaffected by the inhibitor. Similar results were obtained with oxypurinol (1H-pyrazolo-[3,4-d]pyrimidine-4,6-diol). Xylem composition of symbiotic cowpea was markedly changed by allopurinol. Ureides fell to a very low level, but xanthine and, to a lesser extent, hypoxanthine increased markedly. Xylem glutamine was also reduced, but there was little change in other amino acids. Nitrogenase (EC 1.7.99.2) activity of intact nodulated plants or nodulated root segments of plants treated with allopurinol or oxypurinol for 24 hours or more was severely inhibited in cowpea but unaffected in lupin for periods of exposure up to 9 days. Nitrogenase activity of slices of nodules prepared from allopurinol-treated cowpea showed inhibition comparable to that of intact plants. Breis prepared from nodules of treated plants showed no reduction in nitrogenase, nor was there reduction in activity of breis following addition of allopurinol, xanthine, or a range of purine pathway intermediates. Increasing the O2 concentration in assays above 20% (volume/volume) reversed inhibition of nitrogenase by allopurinol in intact nodulated roots. It was concluded for cowpea that allopurinol not only inhibited ureide synthesis but also caused inhibition of nitrogenase activity, thereby leading to progressive dysfunction and eventual senescence of nodules. The mechanistic relationships between inhibition of ureide biosynthesis, changes in gaseous diffusion resistance, and reduced nitrogenase activity remain obscure. 相似文献
10.
A M Deffie J P McPherson R S Gupta D W Hedley G J Goldenberg 《Biochimie et biologie cellulaire》1992,70(5):354-364