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1.
The exocellular proteinases of asporogenic and sporogenicBacillus megaterium KM (megaterioproteinase A and S) were found to be active enzymes of the monomer type. The electrophoretic mobility of megaterioproteinase A is higher than that of S on acrylamide gel. After mixing, the enzymes could be separated again. The molecular weight of megaterioproteinase A was found to be 20,000–23,500, that of megaterioproteinase S 16,500–20,000 daltons, according to the “molecular sieving” method. The electrophoretic mobility of both proteinases was determined at different pH and the graphically calculated isoelectric point (pI) was found to be 7.3–7.4. The pK values of the ES complex estimated by plotting the logarithm of the maximum velocity of the enzymic reaction against pH were 6.0–6.1 and 7.8–8.0 for both megaterioproteinases. The activation energy was 13,500–13,600 for both enzymes. It is concluded that the above two enzymes resemble each other in enzymic properties but differ in electrophoretic mobility and probably also in molecular weight.  相似文献   

2.
Summary Excretion of exocellular dd-carboxypeptidases was tested using 128 strains of streptomycetes. Exocellular enzyme activity was shown in 13% of the trains investigated. Streptomyces strains showed low activity of excretion of dd-carboxypeptidases: 2.7–4.8 M of released C-terminal d-alanine (d-Ala) residue/1 culture supernatant per minute. Saccharopolyspora erythraea mutants produced considerably higher levels of exocellular enzymes, the dynamics of excretion depending upon the medium used. The highest activity of exocellular dd-carboxypeptidase production was 44 M d-Ala/1 culture supernatant per minute. The affinity of exocellular dd-carboxypeptidase of S. erythraea 64-575 for -lactam antibiotics was assessed by a statistical computer programme. The enzyme showed the lowest affinity for sodium cefotaxime, ID50(M) = 7.5 × 10–6, and the highest for potassium cephalosporin C, ID50(M) = 5.0 × 10–9, ID50(M) representing the molar concentration of -lactan antibiotics which decreased by 50% the release of d-Ala. Offprint requests to: W. Kurzatkowski  相似文献   

3.
The dependence of currents through the cyclic nucleotide-gated (CNG) channels of mammalian olfactory receptor neurons (ORNs) on the concentration of NaCl was studied in excised inside-out patches from their dendritic knobs using the patch-clamp technique. With a saturating concentration (100 μm) of adenosine 3′, 5′-cyclic monophosphate (cAMP), the changes in the reversal potential of macroscopic currents were studied at NaCl concentrations from 25 to 300 mm. In symmetrical NaCl solutions without the addition of divalent cations, the current-voltage relations were almost linear, reversing close to 0 mV. When the external NaCl concentration was maintained at 150 mm and the internal concentrations were varied, the reversal potentials of the cAMP-activated currents closely followed the Na+ equilibrium potential indicating that P Cl/P Na≈ 0. However, at low external NaCl concentrations (≤100 mm) there was some significant chloride permeability. Our results further indicated that Na+ currents through these channels: (i) did not obey the independence principle; (ii) showed saturation kinetics with K ms in the range of 100–150 mm and (iii) displayed a lack of voltage dependence of conductance in asymmetric solutions that suggested that ion-binding sites were situated midway along the channel. Together, these characteristics indicate that the permeation properties of the olfactory CNG channels are significantly different from those of photoreceptor CNG channels. Received: 7 November 1996/Revised: 24 March 1997  相似文献   

4.
Summary Proteases were the principal secretory proteins of Clostridium sporogenes and were optimally produced after active growth at 37° C. Glucose, ammonia and peptides repressed protease production. Protease formation was maximal in cultures grown at pH 6.5, but proteolytic activity exhibited a pH optimum of 7.0–8.0. Protease activity in culture filtrates was stimulated by divalent metal ions (Ca2+, Mn2+ and Co2+) and was strongly inhibited by ethylene diaminetetraacetate (EDTA) and thimerosal. Non-denaturing polyacrylamide gel electrophoresis and HPLC gel filtration demonstrated the presence of six major proteases of low molecular mass (approx. 15–35 kDa). The enzymes were partially purified from non-denaturing gels. Each hydrolysed azocoll and azocasein, but differed in their activity against a range of native collagen substrates. All six enzymes degraded human placental collagen (Type IV) but only one had a broad substrate specificity, being able to hydrolyse the more recalcitrant collagens (Types I, II and III). Experiments with individual proteases showed that their activities were strongly inhibited (40–85%) by 5 mM EDTA, indicating that they were metalloproteases. The enzymes exhibited different susceptibilities to inhibition by either 3 mM phenylmethylsulphonyl-fluoride (PMSF), 5 mM thimerosal, or 10 mM cysteine, which respectively inhibit serine, thiol and metalloproteases.  相似文献   

5.
Summary In Gibberella fujikuroi, ammonium (NH4 +) interfered with the production of gibberellic acid (GA3). Optimal production occurred at 19 mm (NH4)2SO4 and the synthesis of GA3 was reduced threefold in a medium with 38 mm (NH4)2SO4. Using a resting cell system with mycelia previously grown on two concentrations (19 mm and 38 mm) of (NH4)2SO4, it was found that NH4 + depressed synthesis of the gibberellin-synthesizing enzymes. Furthermore, addition of NH4 + to a producing system shut off gibberellin formation, indicating that the negative effect of NH4 + ions is also due to inhibition of one or more enzymes in the gibberellin biosynthesis pathway. The onset of gibberellin biosynthesis in media with high (38 mm) and low (19 mm) concentrations of (NH4)2SO4 was studied by addition of cycloheximide to batch cultures of various ages. Offprint requests to: B. Brückner  相似文献   

6.
Summary The purified ryanodine receptor channel of the sheep cardiac muscle sarcoplasmic reticulum (SR) membrane functions as a calcium-activated cation-selective channel under voltage-clamp conditions following reconstitution into planar phospholipid bilayers. We have investigated the effects of the tetra-alkyl ammonium (TAA) cations, (C n H2n+1)4N+ and the trimethyl ammonium cations, ethyltrimethyl ammonium and propyltrimethyl ammonium, on potassium conductance through the receptor channel. Small TAA cations (n = 1–3) and the trimethyl ammonium derivatives act as asymmetric, voltage-dependent blockers of potassium current. Quantitative analysis of the voltage dependence of block indicates that the conduction pathway of the sheep cardiac SR ryanodine receptor channel contains two distinct sites for the interaction of these small organic cations. Sites are located at approximately 50% for tetramethyl ammonium (TMA +) and 90% for tetraethyl ammonium (TEA+) and tetrapropyl ammonium (TPrA+) of the voltage drop across the channel from the cytosolic face of the protein. The chemical substitution of an ethyl or propyl group for one of the methyl groups in TMA+ increases the voltage dependence of block to a level similar to that of TEA + and TPrA+. The zero-voltage dissociation constant (K b(0)) falls with the increasing number of methyl and methylene groups for those blockers acting 90% of the way across the voltage drop. This is interpreted as suggesting a hydrophobic binding site at this point in the conduction pathway. The degree of block increases as the concentration of small TAA cations is raised. The concentration dependence of tetraethyl ammonium block indicates that the cation interacts with a single site within the conduction pathway with a K m of 9.8±1.7 mm (mean±sd) at 40 mV. Larger TAA cations (n = 4–5) do not induce voltage-dependent block of potassium current of the form seen with the smaller TAA cations. These data support the contention that the sheep cardiac SR ryanodine receptor channel may be occupied by at most one ion at a time and suggest that a large proportion of the voltage drop falls over a relatively wide region of the conduction pathway.This work was supported by funds from the Medical Research Council and the British Heart Foundation. We would like to thank Richard Montgomery for his considerable help with the chemical synthesis. We are grateful to Drs. John Chambers, Nick Price and staff for showing us the intricacies of NMR spectroscopy.  相似文献   

7.
Voltage-gated whole-cell currents were recorded from cultured microglial cells which had been developed in the presence of the macrophage/microglial growth factor granulocyte/macrophage colony-stimulating factor. Outward K+ currents (I K) were most prominent in these cells. I Kcould be activated at potentials more positive than –40 mV. Half-maximal activation of I Kwas achieved at –13.8 mV and half-maximal inactivation of I Kwas determined at –33.8 mV. The recovery of I Kfrom inactivation was described by a time constant of 7.9 sec. For a tenfold change in extracellular K+ concentration the reversal potential of I Kshifted by 54 mV.Extracellularly applied 10 mm tetraethylammonium chloride reduced I K by about 50%, while 5 mm 4-aminopyridine almost completely abolished I K. Several divalent cations (Ba2+, Cd2+, Co2+, Zn2+) reduced current amplitudes and shifted the activation curve of I Kto more positive values. Charybdotoxin (IC50 = 1.14 nm) and noxiustoxin (IC50=0.89 nm) blocked I Kin a concentration-dependent manner, whereas dendrotoxin and mast cell degranulating peptide had no effect on the current amplitudes.  相似文献   

8.
The outer sulcus epithelium was recently shown to absorb cations from the lumen of the gerbil cochlea. Patch clamp recordings of excised apical membrane were made to investigate ion channels that participate in this reabsorptive flux. Three types of channel were observed: (i) a nonselective cation (NSC) channel, (ii) a BK (large conductance, maxi K or K Ca ) channel and (iii) a small K+ channel which could not be fully characterized. The NSC channel found in excised insideout patch recordings displayed a linear current-voltage (I-V) relationship (27 pS) and was equally conductive for Na+ and K+, but not permeable to Cl or N-methyl-d-glucamine. Channel activity required the presence of Ca2+ at the cytosolic face, but was detected at Ca2+ concentrations as low as 10−7 m (open probability (P o ) = 0.11 ± 0.03, n= 8). Gadolinium decreased P o of the NSC channel from both the external and cytosolic side (IC50∼ 0.6 μm). NSC currents were decreased by amiloride (10 μm− 1 mm) and flufenamic acid (0.1 mm). The BK channel was also frequently (38%) observed in excised patches. In symmetrical 150 mm KCl conditions, the I-V relationship was linear with a conductance of 268 pS. The Goldman-Hodgkin-Katz equation for current carried solely by K+ could be fitted to the I-V relationship in asymmetrical K+ and Na+ solutions. The channel was impermeable to Cl and N-methyl-d-glucamine. P o of the BK channel increased with depolarization of the membrane potential and with increasing cytosolic Ca2+. TEA (20 mm), charybdotoxin (100 nm) and Ba2+ (1 mm) but not amiloride (1 mm) reduced P o from the extracellular side. In contrast, external flufenamic acid (100 μm) increased P o and this effect was inhibited by charybdotoxin (100 nm). Flufenamic acid inhibited the inward short-circuit current measured by the vibrating probe and caused a transient outward current. We conclude that the NSC channel is Ca2+ activated, voltage-insensitive and involved in both constitutive K+ and Na+ reabsorption from endolymph while the BK channel might participate in the K+ pathway under stimulated conditions that produce an elevated intracellular Ca2+ or depolarized membrane potential. Received: 14 October 1999/Revised: 10 December 1999  相似文献   

9.
Bdellovibrio spp. strains 6-5-S, 100, 109 (Davis), and A3.12 multiply in the presence of viable but non-proliferating or heat-killed (70 or 100 C, 10 min; 121 C, 5 min) cells ofSpirillum serpens strain VHL suspended in buffers supplemented with Ca++ and/or Mg++. Ca++ (optimal, 2 × 10−3 m) and Mg++ (optimal, 2 × 10−5 m) independently stimulate the groth of bdellovibrios: additive effects are noted. Multiplication ofBdellovibrio in the presence of Ca++ and Mg++ is associated with the release into the culture supernatant solution of UV-absorbing materials and of amino sugars (presumably by activating or stabilizing lytic enzymes). The growth rate ofBdellovibrio strain 6-5-S in suspensions of heat-killed host cells is lower than in living but non-proliferating host cells. Bdellovibrio spp. strains 100, 109 (Davis), 109 (Jerusalem), A3.12, and 6-5-S all require added Ca++ for growth in cell suspensions of homologous or heterologous host bacteria which have been grown in minimal medium.Bdellovibrio sp. strain 109 (Jerusalem) is capable of growing in the presence of the low level of Ca++ boundin situ to the cells of its host,E. coli B, when the host cells had been cultivated in a complex medium but not when the host cells had been grown in a Ca++-depleted minimal medium (except when Ca++ is added). Addition of ethylenediaminetetraacetic acid (0.01m) preventsBdellovibrio growth, which is restored by addition of Ca++ and Mg++. The nonparasitic growth ofBdellovibrio spp. strains 100, 109, A3.12, and 6-5-S in heat-killed cell suspensions only in the presence of added cations indicates that, in this system, the cations are essential for activity of bacteriolytic and other enzymes and that they might also directly affectBdellovibrio growth rather than — as may be the case in other systems of live host cells plusBdellovibrio — only indirectly by affecting attachment to the host cell, maintaining integrity of the host spheroplasts, and increasing the burst size.  相似文献   

10.
Outer sulcus epithelial cells were recently found to actively reabsorb cations from the cochlear luminal fluid, endolymph, via nonselective cation channels in the apical membrane. Here we determined the transport properties of the basolateral membrane with the whole-cell patch clamp technique; the apical membrane contributed insignificantly to the recordings. Outer sulcus epithelial cells exhibited both outward and inward currents and had a resting membrane potential of −90.4 ± 0.7 mV (n= 78), close to the Nernst potential for K+ (−95 mV). The reversal potential depolarized by 54 mV for a tenfold increase in extracellular K+ concentration with a K+/Na+ permeability ratio of 36. The most frequently observed K+ current was voltage independent over a broad range of membrane potentials. The current was reduced by extracellular barium (10−5 to 10−3 m), amiloride (0.5 mm), quinine (1 mm), lidocaine (5 mm) and ouabain (1 mm). On the other hand, TEA (20 mm), charybdotoxin (100 nm), apamin (100 nm), glibenclamide (10 μm), 4-aminopyridine (1 mm) and gadolinium (1 mm) had no significant effect. These data suggest that the large K+ conductance, in concert with the Na+,K+-ATPase, of the basolateral membrane of outer sulcus cells provides the driving force for cation entry across the apical membrane, thereby energizing vectorial cation absorption by this epithelium and contributing to the homeostasis of endolymph.  相似文献   

11.
Nitrogen is available to the plant in the form of NH+ 4 in the soil solution. Here it is shown that a voltage-independent K+ channel in the plasma membrane of rye (Secale cereale L.) roots is permeable to NH+ 4. The channel was studied following its incorporation into planar 1-palmitoyl-2-oleoyl phosphatidyl ethanolamine bilayers. The unitary conductance of the channel was greater when assayed in the presence of 100 mm NH4Cl than 100 mm KCl. However, the probability of finding the channel open (P o ) was lower in the presence of 100 mm NH4Cl (P o = 0.63) than in 100 mm KCl (P o = 0.8), suggesting that P o can be regulated by the (permeant) ions present in solution. When assayed in equimolar concentrations of NH4Cl (cis) and KCl (trans), the zero-current (reversal) potential for the channel (E rev) exhibited a complex concentration dependence. At low cation concentrations, the apparent permeability of NH+ 4 relative to K+ (PNH4/PK) was greater than 1.0. However, as the cation concentration was increased, PNH4/PK initially decreased to a minimum of 0.95 at 3 mm before increasing again to a maximum of 1.89 at 300 mm. At cation concentrations above 300 mm, PNH4/PK decreased slightly. This implies that the pore of the channel can be occupied by more than one cation simultaneously. Ammonium permeation through the pore was simulated using a model which is composed of three energy barriers and two energy wells (the ion-binding sites). The model (3B2S) allowed for single-file permeation, double cation occupancy, ion-ion repulsion within the pore and surface potential effects. Results indicated that energy peaks and energy wells were situated asymmetrically within the electrical distance of the pore, that cations repel each other within the pore and that the vestibules to the pore contain negligible surface charge. The energy profile obtained for NH+ 4 is compared with ones obtained for K+ and Na+. This information allows the fluxes through the K+ channel of the three major monovalent cations present in the soil solution to be predicted. Received: 16 October 1995/Revised 12 March 1996  相似文献   

12.
The gating and conduction properties of a channel activated by intracellular Na+ were studied by recording unitary currents in inside-out patches excised from lobster olfactory receptor neurons. Channel openings to a single conductance level of 104 pS occurred in bursts. The open probability of the channel increased with increasing concentrations of Na+. At 210 mm Na+, membrane depolarization increased the open probability e-fold per 36.6 mV. The distribution of channel open times could be fit by a single exponential with a time constant of 4.09 msec at −60 mV and 90 mm Na+. The open time constant was not affected by the concentration of Na+, but was increased by membrane depolarization. At 180 mm Na+ and −60 mV, the distribution of channel closed times could be fit by the sum of four exponentials with time constants of 0.20, 1.46, 8.92 and 69.9 msec, respectively. The three longer time constants decreased, while the shortest time constant did not vary with the concentration of Na+. Membrane depolarization decreased all four closed time constants. Burst duration was unaffected by the concentration of Na+, but was increased by membrane depolarization. Permeability for monovalent cations relative to that of Na+ (P X /P Na ), calculated from the reversal potential, was: Li+ (1.11) > Na+ (1.0) > K+ (0.54) > Rb+ (0.36) > Cs+ (0.20). Extracellular divalent cations (10 mm) blocked the inward Na+ current at −60 mV according to the following sequence: Mn2+ > Ca2+ > Sr2+ > Mg2+ > Ba2+. Relative permeabilities for divalent cations (P Y /P Na ) were Ca2+ (39.0) > Mg2+ (34.1) > Mn2+ (15.5) > Ba2+ (13.8) > Na+ (1.0). Both the reversal potential and the conductance determined in divalent cation-free mixtures of Na+ and Cs+ or Li+ were monotonic functions of the mole fraction, suggesting that the channel is a single-ion pore that behaves as a multi-ion pore when the current is carried exclusively by divalent cations. The properties of the channel are consistent with the channel playing a role in odor activation of these primary receptor neurons. Received: 17 September 1996/Revised: 15 November 1996  相似文献   

13.
The cellulosome multienzyme complex was dissociated into 12–14 components when incubated at 30° C in a reaction mixture that was buffered at pH 5.0 and was 50 mm with respect to sodium dodecyl sulphate and 10 mm with respect to both ethylenediaminetetraacetic acid (EDTA) and dithiothreitol (DTT). The dissociated components reassociated into a complex when dialysed against 20 mm TRIS/HCl buffer, pH 7.7, containing 2.5 mm DTT. When incubated in the presence of Ca2+ and DTT the reassociated complex had the same activity to hydrogen-bond-ordered cellulose as the undissociated cellulosome. However, when Ca2+ ions were incorporated into the TRIS/HCl-DTT dialysis medium the reconstituted complex had very little activity towards cellulose. Other divalent cations such as Mg2+ and Ba2+ had the same effect, but the monovalent cation Na+ resulted in a complex that was very active on crystalline cellulose. The results are interpreted as indicating that the divalent cations bind to one or more of the dissociated polypeptide components and induce changes in conformation that prevent their reassociation into a complex with activity towards crystalline cellulose. Correspondence to: T. M. Wood  相似文献   

14.
Summary The induction of channels across planar lipid bilayers by purified, recombinant pneumolysin (a hemolytic protein from Streptococcus pneumoniae) has been studied by measuring increases in electrical conductivity. Pneumolysin-induced channels exhibit a wide range of single channel conductances (<50 pS to >1 nS at 0.1 m KCl). Channels can be categorized on the basis of their K+:C selectivity: the smallest channels are strongly cation selective, with t+ (the cation transference number) approaching 1.0; the largest channels are unselective (t+ 0.5). Channels tend to remain open at all voltages (–150 to 150 mV); only the smallest channels exhibit any rectification.In the presence of divalent cations (1–5 mm Zn2+; 10–20 mm Ca2+), small (<50 pS) and medium-sized (50 pS to 1 nS) channels are closed in a voltage-dependent manner (more closure at higher voltages); at 0 voltage channels reopen. Overall selectivity is reduced by divalent cations, compatible with small, selective channels being closed preferentially to large, nonselective ones.It is concluded that a single molecular species (pneumolysin) induces multiple-sized channels that can be categorized by cation: anion selectivity and by their sensitivity to closure by divalent cations.We are grateful to Dr. G. J. Boulnois and T. J. Mitchell forfruitful discussion and supplies of pneumolysin, and to G. M. Alder for technical assistance. YEK is grateful to Dr. A. A. Lev for leave of absence and to the USSR Academy of Sciences and the Global Network for Molecular and Cell Biology (UNESCO) for support of travel and accommodation, respectively. The work was supported by the Cell Surface Research Fund.  相似文献   

15.
Removal of extracellular Ca2+ activates ion channels in the plasma membrane of defolliculated oocytes of the South Africa clawed toad Xenopus laevis. At present, there is controversy about the nature of the Ca2+-inactivated ion channels. Recently, we identified one of these channels as a Ca2+-inactivated Cl channel (CaIC) using single channel analysis. In this work we confirm and extend previous observations on the CaIC by presenting a decisive extension of the regulation and inhibition profile. CaIC current is reversibly blocked by the divalent and trivalent cations Zn2+ (half-maximal blocker concentration, K1/2= 8 μm), Cu2+ (K1/2= 120 μm) and Gd3+ (K1/2= 20 μm). Furthermore, CaIC is inhibited by the specific Cl channel blocker NPPB (K1/2≈ 3 μm). Interestingly, CaIC-mediated currents are further sensitive to the cation channel inhibitor amiloride (500 μm) but insensitive to its high affinity analogue benzamil (100 μm). An investigation of the pH-dependence of the CaIC revealed a reduction of currents in the acidic range. Using simultaneous measurements of membrane current (I m ), conductance (G m ) and capacitance (C m ) we demonstrate that Ca2+ removal leads to instant activation of CaIC already present in the plasma membrane. Since C m remains constant upon Ca2+ depletion while I m and G m increase drastically, no exocytotic transport of CaIC from intracellular pools and functional insertion into the plasma membrane is involved in the large CaIC currents. A detailed overview of applicable blockers is given. These blockers are useful when oocytes are utilized as an expression system for foreign proteins whose investigations require Ca2+-free solutions and disturbances by CaIC currents are unwanted. We further compare and discuss our results with data of Ca2+-inactivated cation channels reported by other groups. Received: 18 June 1999/Revised: 13 August 1999  相似文献   

16.
Summary The cell-associated and exocellular hemicellulolytic polysaccharide depolymerase and glycoside hydrolase activity ofBacillus macerans NCDO 1764 was monitored over a range of anaerobic growth conditions in batch and continuous culture. The enzymes were detectable throughout the complete growth cycle in batch culture reaching and maintaining maximum levels in the stationary phase. In continuous culture enzyme activity was largely independent of growth rate (D=0.025–0.1 h-1) although the activity was reduced at higher dilution rates (0.125–0.15 h-1). Although activity was detectable over a wide pH range (pH 5.5–7.5) it was pH dependent, and maximum activities of both the cell-associated and exocellular enzymes were measured in cultures maintained at pH 6.5–7.0±0.1.The principal metabolites formed anaerobically from xylose byB. macerans in batch and continuous culture were acetic acid, formic acid and ethanol which represented 95–99% of the products formed. Smaller amounts of acetone,d,l-lactic acid and succinic acid were formed together with traces of butyric acid (<5 nmol/ml) and isovaleric acid (<25 nmol/ml). The proportions of the metabolites produced varied with growth conditions and were influenced by the pH of the culture and the rate and stage of growth of the microorganism.  相似文献   

17.
The modulation of I A K+ current by ten trivalent lanthanide (Ln3+) cations spanning the series with ionic radii ranging from 0.99 ? to 1.14 ? was characterized by the whole-cell patch clamp technique in bovine adrenal zona fasciculata (AZF) cells. Each of the ten Ln3+s reduced I A amplitude measured at +20 mV in a concentration-dependent manner. Smaller Ln3+s were the most potent and half-maximally effective concentrations (EC50s) varied inversely with ionic radius for the larger elements. Estimation of EC50s yielded the following potency sequence: Lu3+ (EC50= 3.0 μm) ≈ Yb3+ (EC50= 2.7 μm) > Er3+ (EC50= 3.7 μm) ≥ Dy3+ (EC50= 4.7 μm) > Gd3+ (EC50= 6.7 μm) ≈ Sm3+ (EC50= 6.9 μm) > Nd3+ (EC50= 11.2 μm) > Pr3+ (EC50= 22.3 μm) > Ce3+ (EC50= 28.0 μm) > La3+ (EC50= 33.7 μm). Ln3+s altered selected voltage-dependent gating and kinetic parameters of I A with a potency and order of effectiveness that paralleled the reduction of I A amplitude. Ln3+s markedly slowed activation kinetics and shifted the voltage-dependence of I A gating such that activation and steady-state inactivation occurred at more depolarized potentials. In contrast, Ln3+s did not measurably alter inactivation or deactivation kinetics and only slightly slowed kinetics of inactivated channels returning to the closed state. Replacement of external Ca2+ with Mg2+ had no effect on the concentration-dependent inhibition of I A by Ln3+s. In contrast to their action on I A K+ current, Ln3+s inhibited T-type Ca2+ currents in AZF cells without slowing activation kinetics. These results indicate that Ln3+ modulate I A K+ channels through binding to a site on I A channels located within the electric field but which is not specific for Ca2+. They are consistent with a model where Ln3+ binding to negative charges on the gating apparatus alters the voltage-dependence and kinetics of channel opening. Ln3+s modulate transient K+ and Ca2+ currents by two fundamentally different mechanisms. Received: 21 January 1997/Revised: 3 April 1998  相似文献   

18.
A general model for the sorption of trivalent cations to wheat-root (Triticum aestivum L cv. Scout 66) plasma membranes (PM) has been developed and includes the first published coefficients for La3+ and Al3+ binding to a biological membrane. Both ions are rhizotoxic, and the latter ion is the principal contributor to the toxicity of acidic soils around the world. The model takes into account both the electrostatic attraction and the binding of cations to the negatively charged PM surface. Ion binding is modeled as the reaction P +I ZPI Z −1 in which P represents a negatively charged PM ligand, located in an estimated area of 540 ?2, and I Z represents an ion of charge Z. Binding constants for the reaction were assigned for K+ (1 m −1) and Ca2+ (30 m −1) and evaluated experimentally for La3+ (2200 m −1) and H+ (21,500 m −1). Al sorption is complicated by Al3+ hydrolysis that yields hydroxoaluminum species that are also sorbed. Binding constants of 30 and 1 m −1 were assigned for AlOH2+ and Al(OH)+ 2, respectively, then a constant for Al3+ (20,000 m −1) was evaluated experimentally using the previously obtained values for K+, Ca2+ and H+ binding. Electrostatic attraction was modeled according to Gouy-Chapman theory. Evaluation of parameters was based upon the sorption of ions to PM vesicles suspended in solutions containing variable concentrations of H+, Ca2+ and La3+ or Al3+. Use of small volumes, and improved assay techniques, allowed the measurement of concentration depletions caused by sorption to vesicles. Some independent confirmation of our model is provided by substantial agreement between our computations and two published reports of La3+ effects upon zeta potentials of plant protoplasts. The single published report concerning the electrostatic effects of Al on cell membranes is in essential agreement with the model. Received: 6 January 1997/Revised: 6 June 1997  相似文献   

19.
Purified epithelial brush border membrane vesicles (BBMV) were produced from the hepatopancreas of the Atlantic White shrimp, Litopeneaus setiferus, using standard methods originally developed for mammalian tissues and previously applied to other crustacean and echinoderm epithelia. These vesicles were used to study the cation dependency of sugar and amino acid transport across luminal membranes of hepatopancreatic epithelial cells. 3H-d-glucose uptake by BBMV against transient sugar concentration gradients occurred when either transmembrane sodium or potassium gradients were the only driving forces for sugar accumulation, suggesting the presence of a possible coupled transport system capable of using either cation. 3H-l-histidine transport was only stimulated by a transmembrane potassium gradient, while 3H-l-leucine uptake was enhanced by either a sodium or potassium gradient. These responses suggest the possible presence of a potassium-dependent transporter that accommodates either amino acid and a sodium-dependent system restricted only to l-leucine. Uptake of 3H-l-leucine was significantly stimulated (P < 0.05) by several metallic cations (e.g., Zn2+, Cu2+, Mn2+, Cd2+, or Co2+) at external pH values of 7.0 or 5.0 (internal pH 7.0), suggesting a potential synergistic role of the cations in the transmembrane transfer of amino acids. 3H-l-histidine influxes (15 suptakes) were hyperbolic functions of external [zinc] or [manganese], following Michaelis–Menten kinetics. The apparent affinity constant (e.g., K m) for manganese was an order of magnitude smaller (K m = 0.22 μM Mn) than that for zinc (K m = 1.80 μM Zn), while no significant difference (P > 0.05) occurred between their maximal transport velocities (e.g., J max). These results suggest that a number of cation-dependent nutrient transport systems occur on the shrimp brush border membrane and aid in the absorption of these important dietary elements.  相似文献   

20.
Summary The effect of selected cations on DNA synthesis by DNA-polymerase of avian myeloblastosis virus (AMV) was studied. Zinc ions at low concentration (0.2 mm) in the assay system enhanced the activity about 2 × fold and at higher concentration (2.0 mm) inhibited the activity completely. In contrast, addition of lithium and potassium salts produced inhibitory effects in this ionic concentration range. Replacement of K+ ion had an inhibitory effect on the activity.  相似文献   

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