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21.
Bluelight-induced,flavin-mediated transport of redox equivalents across artificial bilayer membranes
Werner Schmidt 《The Journal of membrane biology》1984,82(2):113-122
Summary This paper continues our studies of physico-chemical properties of vesicle-bound flavins. Based on previous results, an advanced model system was designed in order to study the mechanisms underlying bluelight-induced redox transport across artificial membranes. The lumen of single-shelled vesicles was charged with cytochromec, and amphiphilic flavin (AF1 3, AF1 10) was bound to the membrane. Upon bluelight irradiation redox equivalents are translocated from exogeneous 1e
–(EDTA)-and 2e
–(BH3CN–) donors across the membrane finally reducing the trapped cytochromec both under aerobic and anaerobic conditions. The mechanisms involved are explored and evidence for the involvement of various redox states of oxygen, dihydroflavin and flavosemiquinone is presented. 相似文献
22.
Experimental observations reveal a number of characteristics of the redox-linked proton ejection from cytochrome c oxidase vesicles, which apparently cannot be explained by a proton pumping activity of the oxidase. These observations seem, on the other hand, to provide useful elements for alternative explanation(s) of the proton ejection. It is proposed here that the process is scalar and not vectorial and can derive from redox-linked rupture of protonated salt-bridges in the oxidase-lipid complex. 相似文献
23.
The association of fatty acids, androstane, phosphatidylcholine, phosphatidylethanolamine, and phosphatidic acid with purified and phospholipid-vesicle reconstituted cytochrome was studied by spin labeling. Spin-labeled fatty acids were found to be motionally restricted by cytochrome in both phospholipid vesicles and in microsomes to a much greater extent than spin-labeled phospholipids. The equilibrium of spin-labeled fatty acid between the bulk membrane lipid and the protein interface could be shifted towards an increased amount in the bulk phospholipid phase by the addition of oleic acid or lysophosphatidylcholine, but not by sodium cholate. Microsomes from different animals showed a variable extent of motional restriction of fatty acids, independent of pretreatment of the animals with phenobarbital or β-naphthoflavone, of cytochrome content, of the presence of type I and type II substrates for cytochrome . These differences are attributed to the presence of varying amounts of lipid breakdown products in the microsomal membrane such as lysolipids or fatty acids which compete with the externally added spin-labeled fatty acids, or with spin-labeled androstane for the binding to cytochrome . The negative charge of the fatty acid was found to be involved in its association with the protein. Cytochrome was shown to interact only with a few spin-labeled phospholipid molecules in such a way that the motional restriction of the spin acyl chains can be detected by electron paramagnetic resonance (). The number of associated lipid molecules per protein probably is too small to form a complete shell around the protein. This lipid-protein interaction could be destroyed by the addition of sodium cholate, in contrast to the fatty acid-protein interaction. 相似文献
24.
Heven Sze 《生物化学与生物物理学报:生物膜》1983,732(3):586-594
H+-pumping adenosinetriphosphatases (ATPases, EC 3.6.1.3) were demonstrated in sealed microsomal vesicles of tobacco callus. Quinacrine fluorescence quenching was induced specifically by MgATP and stimulated by EGTA and Cl?. Fluorescence quenching reflected a relative measure of pH gradient formation (inside acid), as it could be reversed by gramicidin (an H+/cation conductor) or 10 mM NH4Cl (an uncoupler). H+ pumping was inhibited by tributyltin (an ATPase inhibitor) and sodium vanadate, but it was insensitive to oligomycin or fusicoccin. The vanadate concentration required to inhibit pH gradient formation was similar to that needed to inhibit KCl-stimulated Mg2+-ATPase activity and generation of a membrane potential (measured by ATP-dependent 35SCN? uptake). About 45% of all three activities (ATPase, pH gradient, membrane potential generation) were vanadate-insensitive, supporting the idea that non-mitochondrial membranes of plants have at least two types of electrogenic H+ pump.A vanadate-insensitive, H+-pumping ATPase previously shown by methylamine accumulation was characterized to be anion-sensitive and possibly enriched in vacuolar membranes (Churchill, K.A. and Sze, H. (1983) Plant Physiol. 71, 610–617). Yet, pH gradient formation determined by quinacrine fluorescence quenching was decreased by monovalent cations with a sequence K+, Rb+, Na+ > Cs+,Li+> choline, bisTris-propane. Since K+ stimulated ATPase activity more than Bistris-propane, K+ appeared to collapse formation of the pH gradient by an H+/K+ countertransport. The sensitivity to vanadate and K+ provides evidence that the plasma-membrane ATPase is an electrogenic H+ pump. 相似文献
25.
Athanas I. Boyanov Boris G. Tenchov Rumiana D. Koynova Kamen S. Koumanov 《生物化学与生物物理学报:生物膜》1983,732(3):711-713
dl-Dipalmitoylphosphatidylcholine multilamellar vesicle suspensions were examined by the method of differential scanning calorimetry. A lack of the subtransition at 18°C was established. Such a subtransition is characteristic for l-dipalmitoylphosphatidylcholine suspensions. This lack is supposed to be the result of the impossibility of the racemic phospholipid mixture to form the low-temperature crystal structure Lc. 相似文献
26.
Metabolic acidosis produces a phosphaturia which is independent of parathyroid hormone or dietary phosphorus intake. To study the underlying mechanism, inorganic phosphate (Pi) and glucose transport were studied in brush-border membrane vesicles prepared from the renal cortex of parathyroidectomized rats gavaged for three days with either 7.5 ml of 1.6% NaCl (control) or 1.5% NH4Cl (acidosis). At killing, blood pH and plasma bicarbonate were and , respectively, in control and () and () in acidotic rats. Serum Pi was similar in both groups, while 24 h urine Pi excretion was higher in the acidotic group (). Peak sodium-dependent uptake of Pi, measured after 1.5 min of incubation, was higher in controls than acidotic rats ( vs. protein, ), whereas peak glucose uptake at 1.5 min was not significantly different between the groups. Equilibrium values for Pi and glucose uptake were similar in the two groups. for Pi uptake in the control and acidotic animals were not different, 0.036 and 0.040 mM, respectively. By contrast, was higher in controls than in the acidotic group, 3.13 vs. 1.15 nmol/mg protein per 15 s. These results suggest that metabolic acidosis directly inhibits Pi uptake by the brush border of the proximal tubule by decreasing the availability of Pi carriers of the renal brush-border membrane. 相似文献
27.
Christian J. Le Peuch Danielle A.M. Le Peuch Sidney Katz Jacques G. Demaille Maxwell T. Hincke R. Bredoux J. Enouf S. Levy-Toledano Jacques Caen 《生物化学与生物物理学报:生物膜》1983,731(3):456-464
Calcium-accumulating vesicles were isolated by differential centrifugation of sonicated platelets. Such vesicles exhibit a activity of about 10 nmol (min·mg)?1 and an ATP-dependent Ca2+ uptake of about 10 nmol (min·mg)?1. When incubated in the presence of Mg[γ-32P]ATP, the pump is phosphorylated and the acyl phosphate bond is sensitive to hydroxylamine. The [32P]phosphate-labeled Ca2+ pump exhibits a subunit molecular weight of 120 000 when analyzed by lithium dodecyl sulfate-polyacrylamide gel electrophoresis. Platelet calcium-accumulating vesicles contain a 23 kDa membrane protein that is phosphorylatable by the catalytic subunit of cAMP-dependent protein kinase but not by protein kinase C. This phosphate acceptor is not phosphorylated when the vesicles are incubated in the presence of either Ca2+ or Ca2+ plus calmodulin. The latter protein is bound to the vesicles and represents 0.5% of the proteins present in the membrane fraction. Binding of 125I-labeled calmodulin to this membrane fraction was of high affinity (16 nM), and the use of an overlay technique revealed four major calmodulin-binding proteins in the platelet cytosol (). Some minor calmodulin-binding proteins were enriched in the membrane fractions (). When the vesicles are phosphorylated in the presence of MgATP and of the catalytic subunit of cAMP-dependent protein kinase, the rate of Ca2+ uptake is essentially unaltered, while the Ca2+ capacity is diminished as a consequence of a doubling in the rate of Ca2+ efflux. Therefore, the inhibitory effect of cAMP on platelet function cannot be explained in such simple terms as an increased rate of Ca2+ removal from the cytosol. Calmodulin, on the other hand, was observed to have no effect on the initial rate of calcium efflux when added either in the absence or in the presence of the catalytic subunit of the cyclic AMP-dependent protein kinase, nor did the addition of 0.5 μM calmodulin result in increased levels of vesicle phosphorylation. 相似文献
28.
Ca2+ efflux from sarcoplasmic reticulum vesicles was studied by measurements of net Ca2+ uptake, 45Ca2+ flux and hydrolysis of energy-rich phosphate. The maximal Ca2+ uptake capacity (150–200 nmol/mg protein at pH 6.7, 10 mM MgCl2 and μ=0.26) was independent of the nature and concentration of the energy-donating substrate (ATP or carbamyl phosphate) and of temperature (15–35°C), suggesting coupling between influx and efflux of Ca2+. In the presence of high concentrations of ATP, this efflux of Ca2+ was much higher than the passive Ca2+ permeation, measured after ATP or Ca2+ depletion of the reaction medium. Ca2+ efflux was imperceptible at vesicle filling levels below 35–40 nmol Ca2+/mg protein, and uncorrelated to the inhibition of the Ca2+-ATPase by high intravesicular Ca2+ concentrations. Analysis of the data indicated that Ca2+ efflux under our conditions probably is associated with one of the Ca2+-ATPase partial reactions occurring after dephosphorylation, rather than with a reversal of the Ca2+ translocation step in the phosphorylated state of the enzyme. Furthermore, passive Ca2+ permeation may be concurrently reduced during the enzymatically active state. It is proposed that both Ca2+ efflux and passive Ca2+ permeation (Ca2+ outflow) proceed via the same channels which are closed (occluded) during part of the Ca2+-ATPase reaction cycle. 相似文献
29.
ABSTRACT. A procedure was developed to purify a coated vesicle fraction from the protozoan parasite Trypanosoma brucei. Electron microscopy revealed a difference between T. brucei coated vesicles and clathrin-coated vesicles from other eukaryotes: trypanosome vesicles were larger (100 to ISO nm in diameter) and contained an inner coat of electron-dense material in addition to the external coat. Evidence suggests that the internal coat is the parasite's variant surface glycoprotein (VSG) coat. The SDS-PAGE analysis shows the major protein of T. brucei coated vesicles has a molecular mass of 61 kD, similar to VSG; this protein was recognized in an immunoblot by anti-VSG serum. Trypanosome coated vesicles also contain a protein which comigrates with the major protein (clathrin) of coated vesicles purified from rat brains. However, this protein is a minor component and it is not serologically cross-reactive with mammalian clathrin. Immunoblot analysis demonstrated that the parasite vesicles contained host IgG, IgM, and serum albumin. 相似文献
30.
Andreas Schmid Gerhard Burckhardt Heinz Gögelein 《The Journal of membrane biology》1989,111(3):265-275
Summary Endocytotic vesicles from rat kidney cortex, isolated by differential centrifugation and enriched on a Percoll gradient, contain both an electrogenic H+ translocation system and a conductive chloride pathway. Using the dehydration/rehydration method, we fused vesicles of enriched endosomal vesicle preparations and thereby made them accessible to the patch-clamp technique. In the fused vesicles, we observed Cl– channels with a single-channel conductance of 73±2 pS in symmetrical 140mm KCl solution (n=25). The current-voltage relationship was linear in the range of –60 to +80 mV, but channel kinetic properties dependended on the clamp potential. At positive potentials, two sublevels of conductance were discernible and the mean open time of the channel was 10–15 msec. At negative voltages, only one substate could be resolved and the mean open time decreased to 2–6 msec. Clamp voltages more negative than –50 mV caused reversible channel inactivation. The channel was selective for anions over cations. Ion substitution experiments revealed an anion permeability sequence of Cl–=Br–=I–>SO
4
2–
F–. Gluconate, methanesulfonate and cyclamate were impermeable. The anion channel blockers 4,4-diisothiocyanatostilbene-2,2-disulfonic acid (DIDS, 1.0mm) and 5-nitro-2-(3-phenylpropylamino)-benzoic acid (NPPB, 0.1mm) totally inhibited channel activity. Comparisons with data obtained from radiolabeled Cl–-flux measurements and studies on the H+ pump activity in endocytotic vesicle suspensions suggest that the channel described here is involved in maintenance of electroneutrality during ATP-driven H+ uptake into the endosomes. 相似文献