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D J Marsh 《Federation proceedings》1983,42(8):2398-2404
The history of mathematical modeling of renal countercurrent systems is briefly outlined. Several examples are cited and discussed. These include efforts at parameter estimation and experimental design with models. The goal of this work was the evaluation of hypotheses of hypertonic urine formation. The argument is made that computer simulation with reasonably isomorphic models can be used in a variety of ways, but that one indispensable role for this approach is to provide a test of the quantitative sufficiency of hypotheses. Hypotheses of hypertonic urine formation that do not consider active transport in thin ascending limbs do not pass this test. A new proposal is suggested in which the energy for NaCl reabsorption from thin ascending limbs is derived from dissipation of a urea gradient via an antiport. 相似文献
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To explain how hydrostatic pressure differences between tubule lumen and interstitium modulate isotonic reabsorption rates, we developed a model of NaCl and water flow through paracellular pathways of the proximal tubule. Structural elements of the model are a tight junction membrane, an intercellular channel whose walls transport NaCl actively at a constant rate, and a basement membrane. Equations of change were derived for the channel, boundary conditions were formulated from irreversible thermodynamics, and a pressure-area relationship typical of thin-walled tubing was assumed. The boundary value problem was solved numerically. The principal conclusions are: 1) channel NaCl concentration must remain within a few mOsm of isotonic values for reabsorption rates to be modulated by transtubular pressure differences known to affect this system: 2) basement membrane and channel wall parameters determine reabsorbate tonicity; tight junction parameters affect the sensitivity of reabsorption to transmural pressure; 3) channel NaCl concentration varies inversely with transmural pressure difference; this concentration variation controls NaCl diffusion through the tight junction; 4) modulation of NaCl diffusion through the tight junction controls the rate of isotonic reabsorption; modulation of water flow can increase sensitivity to transmural pressure; 5) no pressure-induced change in permeability of the tight junction or basement membrane is needed for pressure to modulate reabsorption; and 6) system performance is indifferent to the distribution of active transport sites, to the numerical value of the compliance function, and to the relationship between lumen and cell pressures. 相似文献
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The sodium and potassium ion activated adenosinetriphosphatase [(Na+,K+)-ATPase] in membranous preparations from Squalus acanthias has been spin-labeled on sulfhydryl groups after prelabeling with N-ethylmaleimide. Saturation-transfer electron spin resonance spectroscopy has been used to study the rotational motions of the labeled protein on the microsecond time scale. Effective rotational correlation times deduced from the diagnostic line-height ratios in the second-harmonic, 90 degrees out-of-phase (V2') spectra are much larger than those deduced from the spectral integrals, indicating the presence of large-scale segmental motions, in addition to rotation of the protein as a whole. Experiments involving controlled cross-linking of the protein by glutaraldehyde, as well as measurements of the line broadening of the conventional electron spin resonance spectra, support this interpretation. Both the spectral integrals and diagnostic line-height ratios are found to increase irreversibly with time on incubation at temperatures greater than 20 degrees C, corresponding to a decrease in the segmental motion of the protein and probably also in the overall protein rotation. The native enzyme displays a marked nonlinearity in the Arrhenius temperature dependence of the activity at temperatures above 20 degrees C, and the activity decreases with a half-life of ca. 70 min on incubation at 37 degrees C (but not on incubation at low temperature), paralleling the time- and temperature-dependent changes in the saturation-transfer spectra of the labeled protein. Both of these observations suggest that the changes observed in the molecular dynamics could correspond to functional properties of the protein.(ABSTRACT TRUNCATED AT 250 WORDS) 相似文献
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The pH and salt dependences of the interaction of phosphatidic acid, phosphatidylserine, and stearic acid with myelin proteolipid apoprotein (PLP) in dimyristoylphosphatidylcholine (DMPC) recombinants have been studied by electron spin resonance spectroscopy, using spin-labeled lipids. The two-component spin-label spectra have been analyzed both by spectral subtraction and by simulation using the exchange-coupled Bloch equations to give the fraction of lipids motionally restricted by the protein and the rate of lipid exchange between the fluid and motionally restricted lipid populations. For stearic acid, phosphatidic acid, and phosphatidylserine, the fraction of motionally restricted spin-label increases with increasing pH, with pKa's of 7.7, 7.6, and ca. 9.4, respectively. The corresponding pKa's for the bulk lipid regions of the bilayer are estimated, from changes in the ESR spectra, to be 6.7, 7.4, and 11, respectively. In the dissociated state at pH 9.0, the fraction of motionally restricted component decreases with increasing salt concentration, reaching an approximately constant value at [NaCl] = 0.5-1.0 M for all three negatively charged lipids. The net decreases for stearic acid and phosphatidic acid are considerably smaller (by ca. 30%) than those obtained on protonating the two lipids, whereas for phosphatidylserine the fraction of motionally restricted lipid in high salt is reduced to that corresponding to phosphatidylcholine. For a fixed lipid/protein ratio, the on-rate for exchange at the lipid-protein interface is independent of the degree of selectivity and has a shallow temperature dependence, as expected for a diffusion-controlled process.(ABSTRACT TRUNCATED AT 250 WORDS) 相似文献
7.
Effect of acyl chain composition on salt-induced lamellar to inverted hexagonal phase transitions in cardiolipin 总被引:3,自引:0,他引:3
Salt-induced fluid lamellar (L alpha) to inverted hexagonal (HII) phase transitions have been studied in diphosphatidylglycerols (cardiolipins) with different acyl chain compositions, using 31P nuclear magnetic resonance (NMR) spectroscopy. Cardiolipins with four myristoyl chains, tetramyristoyl cardiolipin (TMCL), and with four oleoyl chains, tetraoleoyl cardiolipin (TOCL), were synthesized chemically. TMCL was found to undergo a thermotropic lamellar gel to lamellar liquid-crystalline phase transition at 33-35 degrees C. This lipid exhibited an axially symmetric 31P-NMR spectrum corresponding to a lamellar phase at all NaCl concentrations between 0 and 6 M. In the case of TOCL, formation of an HII phase was induced by salt concentrations of 3.5 M NaCl or greater. These observations, taken together with earlier findings that bovine heart cardiolipin aqueous dispersions adopt an HII phase at salt concentrations of 1.5 M NaCl or greater, indicate that increasing unsaturation and length of the acyl chains favour formation of the HII phase in diphosphatidylglycerols. 相似文献
8.
Selectivity of interaction of phospholipids with bovine spinal cord myelin basic protein studied by spin-label electron spin resonance 总被引:2,自引:0,他引:2
The selectivity of interaction between bovine spinal cord myelin basic protein (MBP) and eight different spin-labeled lipid species in complexes with dimyristoylphosphatidylglycerol (DMPG) and between spin-labeled phosphatidylglycerol and spin-labeled phosphatidylcholine in complexes of MBP with various mixtures of DMPG and dimyristoylphosphatidylcholine (DMPC) has been studied by electron spin resonance (ESR) spectroscopy. In DMPC/DMPG mixtures, the protein binding gradually decreased with increasing mole fraction of DMPC in a nonlinear fashion. The lipid-protein binding assays indicated a preferential binding of the protein to phosphatidylglycerol relative to phosphatidylcholine without complete phase separation of the two lipids. The outer hyperfine splittings (2Amax) of both phosphatidylglycerol and phosphatidylcholine labeled at C-5 of the sn-2 chain (5-PGSL and 5-PCSL, respectively) were monitored in the lipid-protein complexes as a function of the mole fraction of DMPC. The increases in the value of Amax induced on binding of the protein were larger for 5-PGSL than for 5-PCSL, up to 0.25 mole fraction of DMPC. Beyond this mole fraction the spectral perturbations induced by the protein were similar for both lipid labels. The ESR spectra of phosphatidylglycerol and phosphatidylcholine labeled at C-12 of the sn-2 chain were two component in nature, indicating indicating a direct interaction of the protein with the lipid chains, at mole fractions of DMPC up to 0.25. Quantitation of the motionally restricted spin-label population by spectral subtraction again indicated a preferential interaction of the protein with phosphatidylglycerol relative to phosphatidylcholine. Up to DMPC mode fractions of 0.25, the microenvironment of the protein was enriched in DMPG.(ABSTRACT TRUNCATED AT 250 WORDS) 相似文献
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Immunotoxins, constructed by chemically cross-linking an antibody and protein toxin, do not possess the high efficacy of the native toxin. Decreases in toxicity are due in part to the steric constraints imposed on the two macromolecules, which result in both decreased antibody binding and toxin function. In examining the structural features that influence efficacy in holotoxin-antibody conjugates, it was found that the incorporation of a 29-residue polypeptide, derived from the insulin B chain between the antibody and ricin moiety, resulted in an increase in both potency and efficacy. In a murine model system, potency of the peptide spacer conjugate was increased nearly 10-fold; however, when examined by the procedure used to purge bone marrow, the peptide spacer conjugate was not demonstrably more toxic to nontarget cells than the nonspacer conjugate. Thus, in addition to increases of efficacy and potency, this novel immunotoxin demonstrated increased specificity by approximately 10-fold. To test the general utility of peptide spacer inclusion, a T101-ricin conjugate was constructed with the peptide spacer. It yielded a protein synthesis inhibition rate of -0.6 log/h on MOLT-3 cells, greater than 10-fold more efficacious than a previously constructed nonspacer T101-ricin conjugate examined under similar conditions. 相似文献