Existence and uniqueness of a sharp travelling wave in degenerate non-linear diffusion Fisher-KPP equations

In this paper we use a dynamical systems approach to prove the existence of a unique critical value c ^* of the speed c for which the degenerate density-dependent diffusion equation u _ct = [D(u)u _x ] _x + g(u) has: 1. no travelling wave solutions for 0 < c < c ^*, 2. a travelling wave solution u(x, t) = (x - c ^* t) of sharp type satisfying (– ) = 1, () = 0 ^*; '(^*–) = – c ^*/D'(0), '(^*+) = 0 and 3. a continuum of travelling wave solutions of monotone decreasing front type for each c > c ^*. These fronts satisfy the boundary conditions (– ) = 1, '(– ) = (+ ) = '(+ ) = 0. We illustrate our analytical results with some numerical solutions.     

Significance of the β-Subunit in the Biogenesis of Na+/K+-ATPase

This review summarizes our experiments on the significance of the -subunit in the functional expression of Na⁺/K⁺-ATPase. The -subunit acts like a receptor for the -subunit in the biogenesis of Na⁺/K⁺-ATPase and facilitates the correct folding of the -subunit in the membrane. The -subunit synthesized in the absence of the -subunit is subjected to rapid degradation in the endoplasmic reticulum. Several assembly sites are assigned in the sequence of the -subunit from the cytoplasmic NH₂-terminal domain to the extracellular COOH-terminus: the NH₂-terminal region of the extracellular domain, the conservative proline in the third disulfide loop, the hydrophobic amino acid residues near the COOH-terminus and the cysteine residues forming the second and the third disulfide bridges. Upon assembly, the -subunit confers a resistance to trypsin on the -subunit. The conformations induced in the -subunit of Na⁺/K⁺-ATPase by Na⁺/K⁺- and H⁺/K⁺-ATPase -subunits are somehow different from each other and are named the NK-type and KH-type, respectively. The extracellular domain of the -subunit is involved in the folding of the -subunit leading to trypsin-resistant conformations. The sequences from Cys150 to the COOH-terminus of the Na⁺/K⁺-ATPase -subunit and from Ile89 to the COOH–terminus of the H⁺/K⁺-ATPase -subunit are necessary to form trypsin-resistant conformations of the NK- and HK-type. respectively. The first disulfide loop of the extracellular domain of the -subunits is critical in the expression of functional Na⁺/K⁺-ATPase.     

Characterization of the effectors required for stable inheritance of Streptococcus pyogenes pSM19035-derived plasmids in Bacillus subtilis

The low-copy-number and broad-host-range pSM19035-derived plasmid pBT233 is stably inherited in Bacillus subtilis cells. Two distinct regions, segA and segB, enhance the segregational stability of the plasmid. Both regions function in a replicon-independent manner. The maximization of random plasmid segregation is accomplished by the recombination proficiency of the host or the presence of the pBT233 segA region. The segA region contains two open reading frames (or) [ and ]. Inactivation or deletion of or results in SegA^– plasmids. Better than random segregation requires an active segB region. The segB region contains two ors (or and or). Inactivation of either of the orfs does not lead to an increase in cell death, but or^– plasmids are randomly segregated. These results suggest that pBT233 stabilization relies on a complex system involving resolution of plasmid oligomers (segA) and on the function(s) encoded by the segB region.     

The effects of nitric oxide synthesis on the Na+,K+-ATPase activity in guinea pig kidney exposed to lipopolysaccharides

Endotoxins (lipopolysaccharides; LPS) are known to cause multiple organ failure, including renal dysfunction. LPS triggers the synthesis and release of cytokines and the vasodilatör nitric oxide (NO). A major contributor to the increase in NO production is LPS-stimulated expression of inducible nitric oxide synthase (iNOS). This occurs in vasculature and most organs including the kidney. During endotoxemia, NO and superoxide react spontaneously to form the potent and versatile oxidant peroxynitrite (ONOO^–) and the formation of 3-nitrotyrosine (nTyr)-protein adducts is a reliable biomarker of ONOO^– generation. Therefore, the present study was aimed at investigating the role of endogenous nitric oxide in regulating Na⁺,K⁺-ATPase activity in the kidney, and at investigating the possible contribution of reactive nitrogen species (RNS) by measuring of iNOS activity. In addition, the present study was aimed at investigating the relationship between nTyr formation with iNOS and Na⁺,K⁺-ATPase activities. Previously in our study, nTyr was not detectable in kidney of normal control animals but was detected markedly in LPS exposed animals. In this study, kidney Na⁺,K⁺-ATPase activity were maximally inhibited 6 h after LPS injection (P:0.000) and LPS treatment significantly increased iNOS activity of kidney (P:0.000). The regression analysis revealed a very close correlation between Na⁺,K⁺-ATPase activity and nTyr levels of LPS treated animals (r = –0.868, P = 0.001). Na⁺,K⁺-ATPase activity were also negatively correlated with iNOS activity (r = –0.877, P = 0.001) in inflamed kidney. These data suggest that NO and ONOO^– contribute to the development of oxidant injury. Furthermore, the source of NO may be iNOS. iNOS are expressed by the kidney, and their activity may increase following LPS administration. In addition, NO and ONOO^– formation inhibited Na⁺,K⁺-ATPase activity. This results also have strongly suggested that bacterial LPS disturbs activity of membrane Na⁺,K⁺-ATPase that may be an important component leading to the pathological consequences such as renal dysfunction in which the production of RNS are increased as in the case of LPS challenge. (Mol Cell Biochem 271: 107–112, 2005)     

In vitro analysis of ion channels in periaxolemmal-myelin and white matter clathrin coated vesicles: Modulation by calcium and GTPγS

This study reports the analysis of K⁺ channel activity in bovine periaxolemmal-myelin and white matter-derived clathrin-coated vesicles. Channel activity was evaluated by the fusion of membrane vesicles with phospholipid bilayers formed across a patch-clamp pipette. In periaxolemmal myelin spontaneous K⁺ channels were observed with amplitudes of 25–30, 45–55, and 80–100 pS, all of which exhibited mean open-times of 1–2 msec. The open state probability of the 50 pS channel in periaxolemmal-myelin was increased by 6-methyldihydro-pyran-2-one. Periaxolemmal-myelin K⁺ channel activity was regulated by Ca²⁺. Little or no change in activity was observed when Ca²⁺ was added to thecis side of the bilayer. Addition of 10 M total Ca²⁺ also resulted in little change in K⁺ channel activity. However, at 80 M total Ca²⁺ all K⁺ channel activity was suppressed along with the activation of a 100 pS Cl^– channel. The K⁺ channel activity in periaxolemmal myelin was also regulated through a G-protein. Addition of GTPS to thetrans side of the bilayer resulted in a restriction of activity to the 45–50 pS channel which was present at all holding potentials. Endocytic coated vesicles, form in part through G-protein mediated events; white matter coated vesicles were analyzed for G proteins and for K⁺ channel activity. These vesicles, which previous studies had shown are derived from periaxolemmal domains, were found to be enriched in the subunits of G₀, G_s, and G_i and the low molecular weight G protein,ras. As with periaxolemmal-myelin treated with GTPS, the vesicle membrane exhibited only the 50 pS channel. The channel was active at all holding potentials and had open times of 1–6 msec. Addition of GTPS to the bilayer fused with vesicle membrane appeared to suppress this channel activity at low voltages yet induced a hyperactive state at holding potentials of 45 mV or greater. The vesicle 50 pS K⁺ channel was also activated by the 6-methyl-dihydropyron-2-one (20 M).Abbreviations CNPase 2–3 cyclic nucleotide phosphohydrolase - EDTA ethylenediamine N,N,N,N-tetraacetic acid - G-protein GTP(guanosine triphosphate) binding protein - GTPS guanosine 5-O-(3-thiotriphosphate) - MAG myelin associated glycoprotein - Na⁺ K⁺ ATPase, Na⁺ and K⁺ stimulated adenosine triphosphatase - PLP myelin proteolipid protein Special issue dedicated to Dr. Majorie B. Lees.     

Molecular and Functional Studies of the Gamma Subunit of the Sodium Pump

This article reviews our studies of the subunit of the sodium pump. is a member of the FXYD family of small, single transmembrane proteins and is expressed predominantly in the kidney tubule. There are two major variants of which function similarly to bring about two distinct effects, one on K_ATP and the other, on K _K, the affinity of the pump for K ⁺ acting as a competitor of cytoplasmic Na⁺. In this way, is believed to provide a self-regulatory mechanism for maintaining the steady-state activity of the pump in the kidney. Our studies also suggest that K⁺ antagonism of cytoplasmic Na⁺ activation of the pump is relevant not only to the presence of in the kidney, but probably some hitherto undefined factor(s) in other tissues, most notably heart. The interesting possibility that not only but other members of the FXYD family regulate ion transport in a tissue-specific manner is discussed.     

Biosynthesis of RNA polymerase in Escherichia coli

Summary Effect of temperature-sensitive, assembly-defective mutations in Escherichia coli RNA polymerase (rpoB) or subunit gene (rpoC) was investigated on the expression of wild-type rpoB ⁺C⁺operon, which was introduced by infection of a lambda transducing phage drif ⁺ (rpoB ⁺)-6 after UV-irradiation of the mutant cells. In rpoB2·rpoB7 strain which accumulates assembly-intermediates, free , ₂ complex and premature core, the expression of rpoB ⁺C⁺operon measured by the rate of subunit synthesis was considerably inhibited whereas that of EF(translation elongation factor)-Tu, ribosomal proteins L1 and L7/L12, and some -coded proteins remained unaffected. On the other hand, the expression was enhanced specifically for only rpoB ⁺C⁺operon in either rpoC4 or rpoC1 mutants, which are defective in the association of ₂ complex and subunit or the activation of premature core enzyme, respectively. Upon preincubation of the mutant cells at 42° C prior to phage infection, during which assembly intermediates degraded rapidly, the rate of subunit synthesis relative to other phage-corded proteins increased remarkably in rpoB2·rpoB7 mutant as well as in rpoC4 and rpoC1 mutants. These observations strongly suggested the autogenous regulation for at least (rpoB ⁺C⁺) operon by some trans-active diffusible protein complexes built of RNA polymerase subunits. Nature of the regulatory molecules is discussed.Paper VI in this series is Saitoh and Ishihama (1977)     

A K+-selective,three-state channel from fragmented sarcoplasmic reticulum of frog leg muscle

Summary Sarcoplasmic reticulum (SR) vesicles from frog leg muscle were fused with a planar phospholipid bilayer by a method described previously for rabbit SR. As a result of the fusion, K⁺-selective conduction channels are inserted into the bilayer. Unlike the two-state rabbit channel, the frog channel displays three states: a nonconducting (closed) state and two conducting states and . In 0.1m K⁺ the single-channel conductances are 50 and 150 pS for and , respectively. The probabilities of appearearance of the three states are voltage-dependent, and transitions between the closed and states proceed through the state. Both open states follow a quantitatively identical selectivity sequence in channel conductance: K⁺>NH ₄ ⁺ >Rb⁺>Na⁺>Li⁺>Cs⁺. Both open states are blocked by Cs⁺ asymmetrically in a voltage-dependent manner. The zero-voltage dissociation constant for blocking is the same for both open states, but the voltage-dependences of the Cs⁺ block for the two states differ in a way suggesting that the Cs⁺ blocking site is located more deeply inside the membrane in the than in the state.     

Electrogenic properties of the sodium-alanine cotransporter in pancreatic acinar cells: II. Comparison with transport models

Summary In this paper, the results of the preceding electrophysiological study of sodium-alanine cotransport in pancreatic acinar cells are compared with kinetic models. Two different types of transport mechanisms are considered. In the simultaneous mechanism the cotransporterC forms a ternary complexNCS with Na⁺ and the substrateS; coupled transport of Na⁺ andS involves a conformational transition between statesNCS andNCS with inward- and outward-facing binding sites. In the consecutive (or ping-pong) mechanism, formation of a ternary complex is not required; coupled transport occurs by an alternating sequence of association-dissociation steps and conformational transitions. It is shown that the experimentally observed alanine- and sodium-concentration dependence of transport rates is consistent with the predictions of the simultaneous model, but incompatible with the consecutive mechanism. Assuming that the association-dissociation reactions are not rate-limiting, a number of kinetic parameters of the simultaneous model can be estimated from the experimental results. The equilibrium dissociation constants of Na⁺ and alanine at the extracellular side are determined to beK _N <-64mm andK _S <-18mm. Furthermore, the ratioK _N /K _N ^S of the dissociation constants of Na⁺ from the binary (NC) and the ternary complex (NCS) at the extracellular side is estimated to be <-6. This indicates that the binding sequence of Na⁺ andS to the transporter is not ordered. The current-voltage behavior of the transporter is analyzed in terms of charge translocations associated with the single-reaction steps. The observed voltage-dependence of the half-saturation concentration of sodium is consistent with the assumption that a Na⁺ ion that migrates from the extracellular medium to the binding site has to traverse part of the transmembrane voltage.     

Exploration and exploitation of soil by apple,kiwifruit, peach,Asian pear and grape roots

Measurements of root-length density (RLD) in a range of 31 apple, kiwifruit, peach, Asian pear and grape orchards were used to derive indices to describe the exploration and exploitation of rooting volumes. Orchards were of various ages and located on a range of soil types, geographic regions, management systems etc. Data were obtained from core samples of volume 1.66×10^-4 m³ randomly taken within a standard volume, determined by average planting grids, of 2 m radius centred on tree stems, and 1 m depth. Root systems were described using an exploitation index, E(), and an exploration index, E(0). E() is defined as the proportion of the soil volume which contains roots at RLD greater than or equal to some specified value, . E(0) is defined as the proportion of the soil volume which contains roots at any RLD greater than zero. These indices are dependent on sample size, as are all volumetric or soil-coring data.Estimates of E(0) for each orchard were obtained as the proportions of cores containing any RLD>O and assessed for dependence on species. Peach trees had a significantly higher value of E(0), equal to almost 1.0, compared to the other four species where E(0) was approximately 0.8 (p0.01) or less. There was also some variation with age. E(0) was lower for very young plants which had not fully occupied the sampled soil volume. Exploration indices for woody roots increased with rootstock age but otherwise did not explain large differences in E() between species for given values.For example at =0.05×10⁴ m.m^-3, E() was approximately 0.45 for peach and kiwifruit, and 0.05 for apple, Asian pear and grape, whereas at =0.5×10⁴ m.m^-3 the corresponding values were 0.1 and almost zero. Negative exponential curves relating E(), scaled by dividing by E(0), to were fitted for each of the 31 orchards. Exponents for these curves, k, were significantly smaller for kiwifruit and peaches than apples, grapes and Asian pears (p0.05), and smaller for apples than grapes and Asian pears (p0.05). A larger k implies a rapid fall-off in E() as increases. Although all five species contained zero and low RLD samples, only kiwifruit and peaches contained higher RLD values and consequently have higher mean RLD. This trend was consistent across all soils, regions, sampling dates, and plant ages.The analyses demonstrate that core sampling can give useful insights into macro-scale root-system distribution, such as the proportion of a soil volume explored and how it is exploited. If positions of core samples are noted during sampling using angular direction, depth and radial distance as spatial coordinates the method can be used to describe root-system structures.     

Evidence for two K+ currents activated upon hyperpolarization ofParamecium tetraurelia

Summary Hyperpolarization of voltage-clampedParamecium tetraurelia in K⁺ solutions elicits a complex of Ca²⁺ and K⁺ currents. The tail current that accompanies a return to holding potential (–40 mV) contains two K⁺ components. The tail current elicited by a step to –110 mV of 50-msec duration contains fast-decaying (3.5 msec) and slow-decaying (20 msec) components. The reversal potential of both components shifts by 55–57 mV/10-fold change in external [K⁺], suggesting that they represent pure K⁺ currents. The dependence of the relative amplitudes of the two tail currents on duration of hyperpolarization suggests that the slow K⁺ current activates slowly and is sustained, whereas the fast current activates rapidly during hyperpolarization and then rapidly inactivates. Iontophoretic injection of a Ca²⁺ chelator, EGTA, specifically reduces slow tail-current amplitude without affecting the fast tail component. Both K⁺ currents are inhibited by extracellular TEA⁺ in a concentration-dependent, noncooperative manner, whereas the fast K⁺ current alone is inhibited by 0.7mm quinidine.     

Bacteriophage phi 1 as a gene-cloning vector in Bacillus subtilis

Summary We attempted to use Bacillus subtilis phage 1 as a gene-cloning vector since the 1 genome was found to have few cleavage sites upon digestion with several kinds of restriction endonucleases. A 1 stock supplied by J. Ito (University of Arizona, Tucson, USA) consisted of two phages, 1E1 and 1E2, having one and two EcoRI-cleavage sites in their genomes respectively. From the latter isolate a deletion mutant 1E21 was induced to increase the size range of DNA segments to be cloned. It was demonstrated, by in vitro recombination experiments with phage 11 DNA, that 1E21 can be used for cloning EcoRI fragments of various sizes. We analyzed the DNAs of ten 1 clones isolated from independent transfectants and found that six of them carried 11 DNA fragments inserted at either of the two EcoRI-cleavage sites. Some of the hybrid phage DNAs were found to be cleaved with BamHI and HaeIII endonucleases at the 11 DNA portion, whereas the parental 1E21 DNA was insensitive to any of these enzymes. These hybrid phages would therefore be useful vectors for cloning foreign DNA fragments generated by cleavage with BamHI or HaeIII endonucleases.     

K+ influx components in ascites cells: The effects of agents interacting with the (Na++K+)-pump

Summary Several agents known to interact with the (Na⁺+K⁺)-pump were tested for their effects on the components of steady-state K⁺ flux in ascites cells.⁸⁶Rb⁺ was used as a tracer for K⁺, and influx was differentiated into a ouabain-inhibitable pump component, a Cl^–-dependent and furosemide-sensitive exchange component, and a residual leak flux. All agents tested (ouabain, quercetin, oligomycin, phosphate) affected both the pump flux and the Cl^–-linked flux. These findings suggest a linkage between the activity of the Na/K ATPase and the Cl^–-dependent K⁺ exchange flux. In the discussion we point out that the mechanism of this linkage could be direct; e.g., Cl^–-dependent exchange may represent a mode of operation of the Na/K ATPase. However, data from this and other systems tend to suggest an indirect linkage between the Na⁺ pump and a KCl symporter, perhaps via a change in the level of intracellular ATP.     

Dual Effect of Isoprostanes on the Release of [<Superscript>3</Superscript>H]D-Aspartate from Isolated Bovine Retinae: Role of Arachidonic Acid Metabolites

The effect of 8-isoprostanes on potassium (K⁺)-depolarization-evoked release of [³H]D-aspartate from bovine isolated retinae was investigated. Isolated bovine retinae were prepared for studies of K⁺-evoked release of [³H]D-aspartate using the Superfusion Method. Low concentrations of 8-isoPGF₂(1–100 nM) inhibited whereas higher concentrations of this 8-isoprostane (100 nM–30 M) enhanced K⁺-induced [³H]D-aspartate overflow. The excitatory effect of 8-isoPGF₂ was mimicked by thromboxane receptor agonist, U-46619 and blocked by thromboxane receptor antagonist, SQ 29,548 (10 M). Pretreatment of tissues with the cyclooxygenase (COX) inhibitor, flurbiprofen unmasked an inhibitory effect of high concentrations of 8-isoPGF₂(1–30 M) on [³H]D-aspartate release that was attenuated by AH 6809 (10 M). In conclusion, 8-isoPGF₂ exhibits a dual regulatory effect on K⁺-induced [³H]D-aspartate release in isolated bovine retinae. The inhibitory action caused by 8-isoPGF ₂ is due to the activation of EP₁/EP₂ receptors while the excitatory effects are due to the activation of thromboxane receptors.     

A study on Na+-coupled oxidative phosphorylation: ATP formation supported by artificially imposed ΔpNa and ΔpK inVibrio alginolyticus cells

Addition of Na⁺ to the K⁺-loadedVibrio alginolyticus cells, creating a 250-fold Na⁺ gradient, is shown to induce a transient increase in the intracellular ATP concentration, which is abolished by the Na⁺/H⁺ antiporter, monensin. The pNa-supported ATP synthesis requires an additional driving force supplied by endogenous respiration or, alternatively, by a K⁺ gradient (high [K⁺] inside). In the former case, ATP formation is resistant to the protonophorous uncoupler. Dicyclohexylcarbodiimide and diethylstilbestrol, but not vanadate, completely inhibit Na⁺ pulse-induced ATP formation. The data agree with the assumption that Na⁺-ATP-synthase is involved in oxidative phosphorylation inV. alginolyticus. Interrelation of H⁺ and Na⁺ cycles in bacteria is discussed.Abbreviations and electrochemical gradients of H⁺ and Na⁺, respectively - transmembrane electric potential difference - pH, pNa, and pK concentration gradients of H⁺, Na⁺, and K⁺, respectively - CCCP carbonyl cyanidem-chlorophenylhydrazone - DCCD N,N-dicyclohexylcarbodiimide - DES diesthylstilbestrol - HQNO 2-heptyl-4-hydroxyquinolineN-oxide - Tricine N[2-hydroxy-1,1-bis(hydroxymethyl)ethyl]glycine     

Model predictions of the ionic mechanisms underlying the beating and bursting pacemaker characteristics of molluscan neurons

The general properties of the excitable membrane on molluscan pacemaker neurons can be described on the basis of a fair amount of experimental evidence available in the literature. The neuronal membrane exhibits under voltage clamp an initial inward current carried by both Na⁺ and Ca²⁺ ions, the time- and voltage-dependent characteristics of which are similar to that of other excitable structures. The conductance mechanism for the two ion species and the transport kinetics appear to be closely similar. The time course and amplitude of the delayed outward current carried by K⁺ ions shows a marked dependence on the membrane potential. Characteristic for the molluscan neurons is the existence of an additional fast transient outward current which is only activated by hyperpolarizing shifts from the membrane potential. A regular beating discharge over a wide range of frequencies can be predicted by making the assumption of a metabolically controlled driving of the Na⁺ conductance. Bursting pacemaker characteristics can be correctly simulated by the model if sinusoidal variations of an additional Na⁺ and Ca²⁺ conductances g _Na and g _Ca, and periodic variations of the K⁺ conductance g _K, governed by the known operation of a metabolic substrate cycle are introduced. The close approximation of experimentally observed impulse bursts requires that the actual inpulse-frequency and the amplitude of the after-spike hyperpolarization are determined by the temporal pattern of g _Na, while the spike amplitude is controlled by g _Na which (although of similar time course) is lagging in phase behing g _Na. The periodic changes in additional K⁺ conductance g _K, are responsible for burst termination and the changes in inter-burst interval, to the effect that spike doublets, triplets and multi-spike bursts can be simulated by a suitable choice for the time characteristics of g _K. The model makes use of the finding that the Ca²⁺ inflow associated with a spike discharge actually activates g _K, so that large postburst hyperpolarizations can be obtained in high-frequency bursts.Supported by the Deutsche Forschungsgemeinschaft (Grant Ch 25/1)     

Properties,Expression and Potential Roles of Cardiac K<Superscript>+</Superscript> Channel Accessory Subunits: MinK,MiRPs, KChIP,and KChAP

Over the past 10 years, cDNAs encoding a wide range of pore-forming K⁺-channel -subunits have been cloned and found to result in currents with many properties of endogenous cardiac K⁺ channels upon homomeric expression in heterologous systems. However, a variety of remaining discrepancies have led to a search for other subunits that might be involved in the formation of native channels. Over the past few years, a series of accessory subunits has been discovered that modify current properties upon coexpression with -subunits. One of these, the minimal K⁺-channel subunit minK, is essential for formation of the cardiac slow delayed-rectifier K⁺ current, I _Ks, and may also interact in functionally important ways with other -subunits. Another, the K⁺-channel interacting protein KChIP appears critical in formation of native transient outward current (I _to) channels. The roles of 2 other accessory subunits, the minK-related peptide MiRP and the K⁺-channel accessory protein, KChAP, remain unclear. This article reviews the available knowledge regarding the accessory subunits minK, MiRP, KChIP and KChAP, dealing with their structure, effects on currents carried by coexpressed -subunits, expression in cardiac tissues and potential physiological function. On the basis of the available information, we attempt to assess the potential involvement of these accessory K⁺-channel subunits in cardiac pathophysiology and in developing new therapeutic approaches.     

A Kdp-like,high-affinity,K+-translocating ATPase is expressed during growth of Rhodobacter sphaeroides in low potassium media

Cells of the purple non-sulphur bacterium Rhodobacter sphaeroides express a high-affinity K⁺ uptake system when grown in media with low K⁺ concentrations. Antibodies againts the catalytic KdpB protein or the whole KdpABC complex of Escherichia coli crossreact with a 70.0 kDa R. sphaeroides protein that was expressed only in cells grown in media with low K⁺ concentrations. In membranes derived from R. sphaeroides cells grown with low K⁺ concentrations (induced cells), a high ATPase activity could be detected when assayed in Tris-HCl pH 8.0 containing 1 mM MgSO₄. This ATPase activity increased upon addition of 1 mM KCl from 166 to 289 mol ATP hydrolysed x min^-1 x g protein^-1 (1.7-fold stimulation). The K⁺-stimulated ATPase activity was inhibited approximately 93% by 0.5 mM vanadate but hardly by N,N-dicyclohexylcarbo-diimide (DCCD). These results indicate that the inducible K⁺-ATPase in R. sphaeroides resembles the Kdp K⁺-translocating ATPase of Escherichia coli. This Kdp-like transport system is also expressed in R. capsulatus and Rhodospirillum rubrum during growth in media with low K⁺ concentrations suggesting a wide distribution of this transport system among phototrophic bacteria.Abbreviations electrical potential difference across the cytoplasmic membrane - pH pH difference across the cytoplasmic membrane - BSA bovine serum albumine - PAGE polyacrylamide gel electrophoresis - HEPES 4-(2-hydroxyethyl)-1-piperazine-ethanesulfonic acid - PMSF phenyl-methyl-sulfonyl fluoride - DCCD N,N-dicyclohexylcarbodiimide - AIB 2--aminoisobutyric acid - TMG methyl--d-thiogalactopyranoside     

Isolation and characterization of a plaque-forming lac-transducing phage phi80plac with special reference to its integration and excision

Summary From a double lysogen for 80dlac type II (Beckwith and Signer, 1966) and 80, we isolated a plaque-forming lac-transducing coliphage 80plac after selecting a strain with a suitable deletion in the 80 prophage. The lac region of the phage is i ⁺ o ⁺ z ⁺ y ⁺ a ^- and supposed to be located between genes 15 (N) and imm (CI). The phage showed feckless phenotype indicating deletion of genes of the red system. The phage is also deleted for int or att function, and integrates exclusively at the host lac region, largely dependent on the host rec system. Excision of the prophage upon UV-irradiation or by mating the male lysogen with a non-lysogenic female was efficient and largely dependent on the host rec system. But a considerable amount of rec-independent excision was observed at least in the case of zygotic induction, which was not likely to be caused by int-xis, red or ter system of the phage. 80plac/o ^e phage was also isolated by incorporation of o ^e1 mutation from strain 2000o ^e.     

Effect of Extracellular pH on Presteady-State and Steady-State Current Mediated bythe Na<Superscript>+</Superscript>/K<Superscript>+</Superscript> Pump

A ouabain sensitive inward current occurs in Xenopus oocytes in Na⁺ and K⁺ -free solutions. Several laboratories have investigated the properties of this current and suggested that acidic extracellular pH (pH_o) produces a conducting pathway through the Na⁺/K⁺ pump that is permeable to H⁺ and blocked by [Na⁺]_o. An alternative suggestion is that the current is mediated by an electrogenic H⁺-ATPase. Here we investigate the effect of pH_o and [Na⁺]_o on both transient and steady-state ouabain-sensitive current. At alkaline or neutral pH_o the relaxation rate of pre-steady-state current is an exponential function of voltage. Its U-shaped voltage dependence becomes apparent at acidic pH_o, as predicted by a model in which protonation of the Na⁺/K⁺ pump reduces the energy barrier between the internal solution and the Na⁺ occluded state. The model also predicts that acidic pH_o increases steady-state current leak through the pump. The apparent pK of the titratable group(s) is 6, suggesting that histidine is involved in induction of the conductance pathway. ²²Na efflux experiments in squid giant axon and current measurements in oocytes at acidic pH_o suggest that both Na⁺ and H⁺ are permeant. The acid-induced inward current is reduced by high [Na⁺]_o, consistent with block by Na⁺. A least squares analysis predicts that H⁺ is four orders of magnitude more permeant than Na⁺, and that block occurs when 3 Na⁺ ions occupy a low affinity binding site (K _0.5=130±30 mM) with a dielectric coefficient of 0.23±0.03. These data support the conclusion that the ouabain-sensitive conducting pathway is a result of passive leak of both Na⁺ and H⁺ through the Na⁺/K⁺ pump.