Isolation and characterisation of cathepsin-B from bovine pancreas

A simple procedure for the isolation of cathepsin-B from bovine pancreas employing ammonium sulphate fractionation, DEAE cellulose chromatography and Sephadex G-200 gel filtration is described. The purified enzyme gave a single band on polyacrylamide gel electrophoresis. The molecular weight as determined by gel filtration of the enzyme was 26,850. ItsK _m andV _max values were 12.8 mM and 0.303 Μmol/min/mg, respectively. TheK _i for iodoacetamide was 0.16 mM.     

The Michaelis–Menten kinetics of soil extracellular enzymes in response to temperature: a cross‐latitudinal study

Decomposition of soil organic matter (SOM) is mediated by microbial extracellular hydrolytic enzymes (EHEs). Thus, given the large amount of carbon (C) stored as SOM, it is imperative to understand how microbial EHEs will respond to global change (and warming in particular) to better predict the links between SOM and the global C cycle. Here, we measured the Michaelis–Menten kinetics [maximal rate of velocity (V_max) and half‐saturation constant (K_m)] of five hydrolytic enzymes involved in SOM degradation (cellobiohydrolase, β‐glucosidase, β‐xylosidase, α‐glucosidase, and N‐acetyl‐β‐d ‐glucosaminidase) in five sites spanning a boreal forest to a tropical rainforest. We tested the specific hypothesis that enzymes from higher latitudes would show greater temperature sensitivities than those from lower latitudes. We then used our data to parameterize a mathematical model to test the relative roles of V_max and K_m temperature sensitivities in SOM decomposition. We found that both V_max and K_m were temperature sensitive, with Q₁₀ values ranging from 1.53 to 2.27 for V_max and 0.90 to 1.57 for K_m. The Q₁₀ values for the K_m of the cellulose‐degrading enzyme β‐glucosidase showed a significant (P = 0.004) negative relationship with mean annual temperature, indicating that enzymes from cooler climates can indeed be more sensitive to temperature. Our model showed that K_m temperature sensitivity can offset SOM losses due to V_max temperature sensitivity, but the offset depends on the size of the SOM pool and the magnitude of V_max. Overall, our results suggest that there is a local adaptation of microbial EHE kinetics to temperature and that this should be taken into account when making predictions about the responses of C cycling to global change.     

Temperature sensitivity of soil enzyme kinetics under N‐fertilization in two temperate forests

Soil microbes produce extracellular enzymes that degrade carbon (C)‐containing polymers in soil organic matter. Because extracellular enzyme activities may be sensitive to both increased nitrogen (N) and temperature change, we measured the effect of long‐term N addition and short‐term temperature variation on enzyme kinetics in soils from hardwood forests at Bear Brook, Maine, and Fernow Forest, West Virginia. We determined the V_max and K_m parameters for five hydrolytic enzymes: α‐glucosidase, β‐glucosidase, β‐xylosidase, cellobiohydrolase, and N‐acetyl‐glucosaminidase. Temperature sensitivities of V_max and K_m were assessed within soil samples subjected to a range of temperatures. We hypothesized that (1) N additions would cause microbial C limitation, leading to higher enzyme V_max values and lower K_m values; and (2) both V_max and K_m would increase at higher temperatures. Finally, we tested whether or not temperature sensitivity of enzyme kinetics is mediated by N addition. Nitrogen addition significantly or marginally significantly increased V_max values for all enzymes, particularly at Fernow. Nitrogen fertilization led to significantly lower K_m values for all enzymes at Bear Brook, but variable K_m responses at Fernow Forest. Both V_max and K_m were temperature sensitive, with Q₁₀ values ranging from 1.64–2.27 for enzyme V_max and 1.04–1.93 for enzyme K_m. No enzyme showed a significant interaction between N and temperature sensitivity for V_max, and only β‐xylosidase showed a significant interaction between N and temperature sensitivity for K_m. Our study is the first to experimentally demonstrate a positive relationship between K_m and temperature for soil enzymes. Higher temperature sensitivities for V_max relative to K_m imply that substrate degradation will increase with temperature. In addition, the V_max and K_m responses to N indicate greater substrate degradation under N addition. Our results suggest that increasing temperatures and N availability in forests of the northeastern US will lead to increased hydrolytic enzyme activity, despite the positive temperature sensitivity of K_m.     

Expression,purification and immobilization of the intracellular invertase INVA,from <Emphasis Type="Italic">Zymomonas mobilis</Emphasis> on crystalline cellulose and Nylon-6

This paper presents two immobilization methods for the intracellular invertase (INVA), from Zymomonas mobilis. In the first method, a chimeric protein containing the invertase INVA, fused through its C-terminus to CBD _Cex from Cellulomonas fimi was expressed in Escherichia coli strain BL21 (DE3). INVA was purified and immobilized on crystalline cellulose (Avicel) by means of affinity, in a single step. No changes were detected in optimal pH and temperature when INVA-CBD was immobilized on Avicel, where values of 5.5 and 30 °C, respectively, were registered. The kinetic parameters of the INVA-CBD fusion protein were determined in both its free form and when immobilized on Avicel. K _m and V _max were affected with immobilization, since both showed an increase of up to threefold. Additionally, we found that subsequent to immobilization, the INVA-CBD fusion protein was 39% more susceptible to substrate inhibition than INVA-CBD in its free form. The second method of immobilization was achieved by the expression of a 6xHis-tagged invertase purified on Ni-NTA resin, which was then immobilized on Nylon-6 by covalent binding. An optimal pH of 5.5 and a temperature of 30 °C were maintained, subsequent to immobilization on Nylon-6 as well as with immobilization on crystalline cellulose. The kinetic parameters relating to V _max increased up to 5.7-fold, following immobilization, whereas K _m increased up to 1.7-fold. The two methods were compared showing that when invertase was immobilized on Nylon-6, its activity was 1.9 times that when immobilized on cellulose for substrate concentrations ranging from 30 to 390 mM of sucrose.     

Synthesis and properties of anionic cellulose ethers: influence of functional groups and molecular weight on flowability of concrete

The suitability of anionic cellulose ethers as superplasticizers and the effect of chemical structure on the fluidity of cement mixtures was investigated. To elucidate the influence of molecular weight and degree of cellulose backbone substitution, cellulose and hydroxyethyl cellulose with molecular weights <50,000 g/mol were synthesized by acid-catalyzed and oxidative degradation. Commercial as well as degraded samples were functionalized by carboxymethylation and sulfobutylation, controlling the degree of substitution (DS) by the molar ratio of reactants and by taking advantage of the high reactivity of sultones towards salts of carboxylic acids, even in aqueous solutions. The fluidizing effect of the cellulose ethers with anionic ‘cement-anchoring‘ groups was prescreened, measuring the static flow of cement pastes. The results indicated a high potential of sulfobutylated cellulose mixed ethers as dispersing agents for concrete. The fluidizing action increased with increasing DS and an optimum range of molecular weight between 100,000 and 150,000 g/mol was found.     

CARRIER MEDIATED BLOOD-BRAIN BARRIER TRANSPORT OF CHOLINE AND CERTAIN CHOLINE ANALOGS

Blood-brain barrier (BBB) transport of choline and certain choline analogs was studied in adult and suckling rats, and additionally compared in the paleocortex and neocortex of adult rats. Saturable uptake was characterized by a single kinetic system in all cases examined, and in adult rat forebrains we determined a K_m= 442 ± 60 μM and V_max= 10.0 ± 0.6 nmol min^-1 g^-1. In 14–15-day-old suckling forebrains a similar K_m (= 404 ± 88 μM) but higher V_max (= 12.5 ± 1.5 nmol min^-1 g^-1) was determined. When choline uptake was compared in two regions of the forebrain, similar Michaelis-Menten constants were determined but a higher uptake velocity was found in the neocortex (i.e. neocortex K_m= 310 ± 103 μM and V_max= 12.6 ± 2.8 nmol min^-1g^-1; paleocortex K_m= 217 ± 76 μM and V_max= 7.2 ± 1.5 nmol min^-1 g^-1). Administration of radiolabelled choline at low (5 μM) and high (100 μM) concentrations, followed by microwave fixation 60 s later and chloroform-methanol-water separations of the homogenized brain did not suggest a relationship between concentration and the appearance of label in lipid or aqueous fractions as observed in another in-vitro study elaborating two-component kinetics of choline uptake. It was observed that 60s after carotid injection 12–14% of the radiolabel in the ipsilateral cortex was found in the chloroform-soluble fraction. Hemicholinium-3 (K_i= 111 μM), dimethylaminoethanol (K_i= 42 μM), tetraethyl ammonium chloride, tetramethyl ammonium chloride, 2-hydroxyethyl triethylammonium iodide, carnitine, normal rat serum, and to a lesser extent lithium and spermidine all inhibited choline uptake in the BBB. Unsubstituted ammonium chloride and imipramine did not inhibit choline uptake. No difference was observed in blood-brain barrier choline uptake of unanesthetised, carotid artery-catheterized animals, and comparable sodium pentobarbital-anesthetized controls.     

Activation and inhibition of mitochondrial adenosine triphosphatase by various anions and other agents

The activating or inhibiting actions of a variety of anion species and of oligomycin, aurovertin and Dio-9 on the ATPase of a sonic particle preparation of rat liver mitochondria have been characterized by measurements of the relevantV _max,K _i andK _m values.The normalV _max was increased by a factor near 7 by the anions: dichromate, chromate, pyrophosphate, orthophosphate, orthoarsenate and sulphate. The fully activating concentration varied from about 2 mM for dichromate to 150 mM for sulphate. The increase inV _max was accompanied by a time-dependent decrease in (K _i)ADP, but there was no change in (K _m)ATP. The increase inV _max by the activating anions was abolished by aurovertin; but in presence of oligomycin, the lowV _max was increased by the activating anions by the same factor as theV _max in absence of oligomycin.Certain anions, notably azide, decreasedV _max, but did not affect (K _i)ADP or (K _m)ATP. The decrease inV _max by azide and oligomycin were approximately additive. Even at high concentration, Dio-9 was without detectable effect on the ATPase, but it had a gramicidinlike effect on the intact mitochondria.The specificity of the ATPase for ATP relative to GTP was found to be attributable to the high value of (V _max)ATP compared with (V _max)GTP. The values of (K _m)ATP and (K _m)GTP were virtually the same.Some rationalization of these and other supporting observations is attempted in terms of present knowledge of the constitution of the ATPase complex.     

Calcium-stimulated myofibrillar ATPase activity correlates with shortening velocity of muscle fibres in Xenopus laevis

Summary The iliofibularis muscle ofXenopus laevis is reported to contain five types of fibres which have different force—velocity relationships. Ten fibres of each type were selected on the basis of succinate dehydrogenase activity, cross-sectional area and location in the muscle, in order to assess the validity of the fibre type classification.Maximum calcium-stimulated myofibrillar ATPase activity (V _max) and apparent Michaelis constant (K _m) for ATP were determined for these 50 fibres from serial sections. The values obtained varied according to the type of fibre. Type 1 had the highest and type 5 the lowest values forK _m andV _max.In a separate experiment, single freeze-dried fibres were used to determine the relationship between their ATP content and apparentK _m for ATP. There was a tendency for high ATP concentrations in fibres with highK _m values.When myofibrillar ATPase activity was related to the maximum velocity of shortening of the five fibre types, a significant correlation was found. It is concluded that calcium-stimulated myofibrillar ATPase histochemistry allows an estimate of the maximum shortening velocity of muscle fibres fromXenopus laevis.     

Purification and kinetic studies on a porphobilinogen deaminase from the unicellular green alga Scenedesmus obliquus

Porphobilinogen deaminase, the enzyme condensing four molecules of porphobilinogen, was isolated and purified from light grown Scenedesmus obliquus (wild type). The purification procedure included heat treatment, ammonium sulphate fractionation, gel filtration, high-resolution anion-exchange chromatography and hydrophobic interaction chromatography. The enzyme was purified 1368-fold, compared to the initial crude extract. Its final specific activity was 6812 units · (mg · protein)^?1 at pH 7.4 with a recovery of 44%. The relative molecular mass was 33000, as determined by Sephadex G-100 gel filtration, and 35900 by lithium dodecyl sulfate-polyacrylamide-gel electrophoresis, indicating that the enzyme is a monomer. Studies of initial reaction velocities showed a linear progress curve for hydroxymethylbilane formation and a hyperbolic dependence of the initial reaction rate on substrate concentration, consistent with a sequential displacement mechanism. Apparent kinetic constants (K _m and V _max) for the conversion of porphobilinogen to hydroxymethylbilane at 37 ° C, pH 7.4, were 79 μM and 176 pmol · min^?1, respectively. Variation of both V _max and K _max with pH indicated the presence of ionizable groups in the enzyme-substrate complex(es), showing a single ionization (pK 7.15) in V _max/K _m plots. A sharp pH-profile for V _max was interpreted as a positive cooperative proton dissociation. In spite of the two pathways existing for 5-aminolevulinate biosynthesis in Scenedesmus, currently there is no indication of the existence of two porphobilinogen deaminases or even of isoenzymes.     

Do trace elements modify the activity of erythrocyte sodium-proton exchanger in hemodialyzed patients?

The kinetics (V _max and K _m ) of the erythrocyte Na⁺−H⁺ exchanger was studied in a group of 21 patients undergoing regular hemodialysis (HD) and in 21 control subjects. The activity of antioxidative enzymes—superoxide dismutase and glutathione peroxidase—as well as the concentrations of their cofactors—zinc, copper, and selenium—in plasma and in erythrocytes were determined. The thiobarbituric acid-reactive substances (TBARS) concentration served as an indicator of oxidative stress intensity in plasma and erythrocytes. It was found that in the control group the concentration of copper in erythrocytes was positively correlated with K _m and V _max. When the concentration of copper increased, the shape of the kinetic curve changed from sigmoidal to hyperbolic. In the control group, the concentration of zinc in erythrocytes also correlated with K _m . However, the results obtained for the group of hemodialyzed patients were the opposite: when the erythrocyte concentration of copper increased, a K _m decline was observed and the shape of the curve changed from hyperbolic to sigmoidal. In the group of hemodialyzed patients, we also found a positive correlation between K _m and the concentration of selenium in erythrocytes, and a negative correlation between K _m and erythrocyte TBARS.     

Oxygen uptake kinetics of Pseudomonas chlororaphis grown in glucose- or glutamate-limited continuous cultures

Oxygen uptake and glucose and glutamate oxidation kinetics of the heterotrophic bacterium Pseudomonas chlororaphis grown in glucose- or glutamate-limited cultures under oxygen-saturating or oxygen-limiting conditions were determined. K _m values for oxygen were 1.4– 5.6 μM. Only in the case of glucose were significantly lower K _m values and enhanced specific oxygen affinity (V _max/K _m) per cell found under oxygen-limiting conditions. Both K _m and specific affinity values for glucose and glutamate oxidation were apparently affected by oxygen concentration, although a statistically significant enhancement of the oxidation kinetics was found only for glutamate. The kinetic data found for P. chlororaphis support the conclusion that the outcome of competition for oxygen with Nitrosomonas europaea in the rhizosphere of oxygen-releasing macrophytes will primarily be determined by oxidation kinetics of the electron donor instead of the oxygen uptake kinetics of the respective organisms. Received: 20 September 1996 / Accepted: 5 February 1997     

Temperature sensitivities of extracellular enzyme Vmax and Km across thermal environments

The magnitude and direction of carbon cycle feedbacks under climate warming remain uncertain due to insufficient knowledge about the temperature sensitivities of soil microbial processes. Enzymatic rates could increase at higher temperatures, but this response could change over time if soil microbes adapt to warming. We used the Arrhenius relationship, biochemical transition state theory, and thermal physiology theory to predict the responses of extracellular enzyme V_max and K_m to temperature. Based on these concepts, we hypothesized that V_max and K_m would correlate positively with each other and show positive temperature sensitivities. For enzymes from warmer environments, we expected to find lower V_max, K_m, and K_m temperature sensitivity but higher V_max temperature sensitivity. We tested these hypotheses with isolates of the filamentous fungus Neurospora discreta collected from around the globe and with decomposing leaf litter from a warming experiment in Alaskan boreal forest. For Neurospora extracellular enzymes, V_max Q₁₀ ranged from 1.48 to 2.25, and K_m Q₁₀ ranged from 0.71 to 2.80. In agreement with theory, V_max and K_m were positively correlated for some enzymes, and V_max declined under experimental warming in Alaskan litter. However, the temperature sensitivities of V_max and K_m did not vary as expected with warming. We also found no relationship between temperature sensitivity of V_max or K_m and mean annual temperature of the isolation site for Neurospora strains. Declining V_max in the Alaskan warming treatment implies a short‐term negative feedback to climate change, but the Neurospora results suggest that climate‐driven changes in plant inputs and soil properties are important controls on enzyme kinetics in the long term. Our empirical data on enzyme V_max, K_m, and temperature sensitivities should be useful for parameterizing existing biogeochemical models, but they reveal a need to develop new theory on thermal adaptation mechanisms.     

Kinetics of urea uptake by Melosira italica (Ehr.) Kütz at different luminosity conditions

The kinetic parameters K_m and V_max for urea uptake by Melosira italica were determined at 160 μeinsteins m⁻² s⁻¹ and in the dark. The transport systems showed an affinity for the substrate and a storing capacity in the dark (K_m = 65.07 μM; V_max = 2.18 nmoles 10⁵ cells ⁻¹ h⁻¹) greater than under 160 μE m⁻² s ⁻¹ (K_m = 111.2 μM; V_max = 1.11 nmoles 105 cells⁻¹ h⁻¹). Similarly, a reduction in consumption rate of urea under increasing photon flux densities was observed. The use of an inhibitor (potassium cyanide) indicated that the uptake process requires metabolic energy. That urea transport is more important in darkness, may constitute a survival strategy in which this compound is utilized by cells mainly during heterotrophic growth.     

Variability of Reaction Kinetics for Ribulose-1,5-bisphosphate Carboxylase in a Barley Population

The photosynthetic enzyme ribulose bisphosphate carboxylase-oxygenase [EC 4.1.1.39] (RuBPCase) plays a key role in the carbon reduction system of plants. In this study, we determined the kinetic variability of RuBPCase among 46 varieties of Hordeum vulgare L. at two ages. The V_max CO₂ and K_m CO₂ of RuBPCase was determined for each cultivar. Varietal differences were found in K_m CO₂ and V_max CO₂ for one and four genotypes, respectively. One variety exhibited atypical behavior in both K_m and V_max. A comparison of varieties and age showed a significant interaction between these factors for K_m but not for V_max. These data indicate the presence of kinetic variability in RuBPCase within the H. vulgare population and perhaps between plant ages.     

A study of the substrate specificity of aminopeptidase N from Lactococcus lactis subsp. cremoris Wg2

A systematic study was made of the ability of aminopeptidase N from Lactococcus lactis subsp. cremoris Wg2 to hydrolyse different peptide substrates. The enzyme showed a marked preference for substrates containing arginine as the N-terminal residue but, to a lesser extent, was also capable of cleaving other residues such as lysine and leucine. There was a tendency for the activity to increase with the hydrophobicity index of the C-terminal residue of dipeptide substrates. It was also observed that the enzyme tended to have higher affinities but lower V _max values for tripeptides with hydrophobic C-terminal residues. The values determined for K _m and V _max increased with chain length for oligopeptides of the general formula Lys-Phe-(Gly) _n , the optimum, as determined from V _max/K _m, being when n = 4. Typical K _m values for the most effective substrates were in the range 0.2–0.6 mM.     

Purification and characterization of benzoyl-CoA ligase from a syntrophic,benzoate-degrading,anaerobic mixed culture

Summary The benzoyl-CoA ligase from an anaerobic syntrophic culture was purified to homogeneity. It had a molecular mass of around 420 kDa and consisted of seven or eight subunits of 58 kDa. The temperature optimum was 37–40° C, the optimum pH around 8.0 and optimal activity required 50–100 mM TRIS-HCI buffer, pH 8.0 and 3–7 mM MgCl₂; MgCl₂ in excess of 10 mM was inhibitory. The activation energy for benzoate was 11.3 kcal/mol. Although growth occured only with benzoate as a carbon source, the benzoyl-coenzyme A (CoA) ligase formed benzoyl-CoA esters with benzoate, 2-, 3- and 4-fluorobenzoate, picolinate, nicotinate and isonicotinate. Acetate was activated to acetyl-CoA by an acetyl-CoA synthetase. The K _m values for benzoate, 2-, 3- and 4-fluorobenzoate were 0.04, 0.28, 1.48 and 0.32 mM, the V _max values 1.05, 1.0, 0.7 and 0.98 units (U)/mg, respectively. For reduced CoA (CoA-SH) a K _m of 0.17 mM and a V _max of 1.05 U/mg and for ATP a K _m of 0.16 mM and a V _max of 1.08 U/mg was determined. Benzoate activation was inhibited by more than 6 mM ATP, presumably by pyrophosphate generation from ATP. The inhibition constant (K _i) for pyrophosphate was 5.7 mM. No homology of the N-terminal amino acid sequence with that of a 2-aminobenzoyl-CoA ligase of a denitrifying Pseudomonas sp. was found. Correspondence to: J. Winter     

Immobilization of the α-amylase of Bacillus amyloliquifaciens TSWK1-1 for the improved biocatalytic properties and solvent tolerance

The α-amylase of Bacillus amyloliquifaciens TSWK1-1 (GenBank Number, GQ121033) was immobilized by various methods, including ionic binding with DEAE cellulose, covalent coupling with gelatin and entrapment in polyacrylamide and agar. The immobilization of the purified enzyme was most effective with the DEAE cellulose followed by gelatin, agar and polyacrylamide. The K _m increased, while V _max decreased upon immobilization on various supports. The temperature and pH profiles broadened, while thermostability and pH stability enhanced after immobilization. The immobilized enzyme exhibited greater activity in various non-ionic surfactants, such as Tween-20, Tween-80 and Triton X-100 and ionic surfactant, SDS. Similarly, the enhanced stability of the immobilized α-amylase in various organic solvents was among the attractive features of the study. The reusability of the immobilized enzyme in terms of operational stability was assessed. The DEAE cellulose immobilized α-amylase retained its initial activity even after 20 consequent cycles. The DEAE cellulose immobilized enzyme hydrolyzed starch with 27 % of efficiency. In summary, the immobilization of B. amyloliquifaciens TSWK1-1 α-amylase with DEAE cellulose appeared most suitable for the improved biocatalytic properties and stability.     

The α1 Na+−K+ pump of the Dahl salt-sensitive rat exhibits altered Na+ modulation of K+ transport in red blood cells

The properties of the α1 Na⁺-K⁺ pump were compared in Dahl salt-sensitive (DS) and salt-resistant (DR) strains by measuring ouabain-sensitive luxes (mmol/liter cell x hr = FU, Mean ± se) in red blood cells (RBCs) and varying internal ( _i ) and external ( _o ) Na⁺ and K⁺ concentrations. Kinetic parameters of several modes of operation, i.e., Na⁺/ K⁺, K⁺/K⁺, Na⁺/Na⁺ exchanges, were characterized and analyzed for curve-fitting using the Enzfitter computer program. In unidirectional flux studies (n=12 rats of each strain) into fresh cells incubated in 140 mm Na⁺ + 5 mm K⁺, ouabain-sensitive K⁺ influx was substantially lower in the DS than in DR RBCs, while ouabain-sensitive Na⁺ efflux and Na _i were similar in both strains. Thus, the coupling ratio between unidirectional Na⁺∶K⁺ fluxes was significantly higher in DS than in DR cells at similar RBC Na⁺ content. In the presence of 140 mm Na _o , activation of ouabain-sensitive K⁺ influx by K _o had a lower K _m and V _max in DS as estimated by the Garay equation (N=2.70 ± 0.33, K _m 0.74 ± 0.09 mm; V _max 2.87 ± 0.09 FU) than in DR rats (N=1.23 ± 0.36, K _m 2.31 ± 0.16 mm; v _max 5.70 ± 0.52 FU). However, the two kinetic parameters were similar following Na _o removal. The activation of ouabain-sensitive K⁺ influx by Na _i had significantly lower V _max in DS (9.3 ± 0.4 FU) than in DR (14.5 ± 0.6 FU) RBCs but similar K _m. These data suggest that the low K⁺ influx in DS cells is caused by a defect in modulation by Na _o and Na _i . Na⁺ efflux showed no differences in Na _i activation or trans effects by Na _o and K _o , thus accounting for the different Na⁺∶K⁺ coupling ratio in the Dahl strains. Further evidence for the differences in the coupling of ouabain-sensitive fluxes was found in studies of net Na⁺ and K⁺ fluxes, where the net ouabain-sensitive Na⁺ losses showed similar magnitudes in the two Dahl strains while the net ouabainsensitive K⁺ gains were significantly greater in the DR than the DS RBCs. Ouabain-sensitive Na⁺ influx and K⁺ efflux were also measured in these rat RBCs. The inhibition of ouabain-sensitive Na⁺ influx by K _o was fully competitive for the DS but not for the DR pumps. Thus, for DR pumps, K _o could activate higher K⁺ influx in DR pumps without a complete inhibition of ouabain-sensitive Na⁺ influx. This behavior is consistent with K _o interaction with distinct Na⁺ and K⁺ transport sites. In addition, the inhibition of K⁺ efflux by Na, was different between Dahl strains. Ouabain-sensitive K⁺ efflux at Na _i level of 4.6 mmol/liter cell, was significantly higher in DS (3.86 ± 0.67 FU) than in DR (0.86 ± 0.14 FU) due to a threefold higher K₅₀ for Na _i -inhibition 9.66 ± 0.41 vs. 3.09 ± 0.11 mmol/liter cell. This finding indicates that Na⁺ modulation of K⁺ transport is altered at both sides of the membrane. The dissociation of Na⁺ modulatory sites of K⁺ transport from Na⁺ transport sites observed in RBCs of Dahl strains suggests that K⁺ transport by the Na⁺-K⁺ pump is controlled by Na⁺ allosteric sites different from the Na⁺ transport sites. The alterations in K⁺ transport may be related to the amino acid substitution (Leu/Gln₂₇₆) reported for the cDNA of the α1 subunit of the Na⁺-K⁺ pump in the DS strain or to post-translational modifications during RBC maturation. These studies were supported by the following grants: NIH (HL-35664, HL-42120, HL-18318, HL-39267, HL-01967). J.R.R. is a Ford Foundation Predoctoral Fellow. A preliminary report of this work was presented at the International Conference on the Na⁺-K⁺ pump and 44th Annual Meeting of the Society of General Physiologists held at Woods Hole, MA, September 5–9, 1990, and published as an abstract in the J. Gen. Physiol. 96:70a, 1990.     

Glucose utilization by 6pgd genotypes in Lolium perenne

To gain a deeper understanding of the mechanisms underlying associations between allozyme genotypes and rates of respiration in Lolium perenne, V_max K_m and rates of glucose flux through glycolysis and the pentose phosphate pathway were estimated for the three genotypes of the 6pgd locus. K_m V_max and V_max/K_m differed significantly among genotypes. Values of K_m for the 11, 12, and 22 genotypes were 0.29, 0.25, 0.13, while the values of V_max/K_m for die 11, 12, and 22 genotypes were 3.79, 3.85, 6.70. Flux through the pentose shunt did not differ among genotypes at 20 °C, but at 35 °C the rates of flux for the 11, 12, and 22 genotypes were 0.15, 0.25 and 0.42, respectively. Thus, the 6PGD allozyme genotypes differ markedly in both enzyme kinetic characteristics and in flux through a metabolic pathway. These associations reveal potentially causal relationships between allozyme genotypes and rates of respiration.     

A correlation between newly induced gene activity and an enhancement of mitochondrial enzyme activity in the salivary glands of Drosophila

A comparison was made between some respiratory characteristics of mitochondria isolated from larval salivary glands of Drosophila hydei displaying chromosome puffs induced by anaerobiosis and mitochondria from non-treated glands. Mitochondria from anaerobically treated glands displayed a K_m of the respiration in the presence of isocitrate (2.4 mM) which is half that of the K_m found in control glands (5.6 mM). The V_max of respiratory activity in the presence of isocitrate is similar for mitochondria of treated and non-treated glands. The apparent V_max of the NADH dehydrogenase (E.C. 1.6.99.3) activity in mitochondria isolated from treated glands was 70% higher than in the control glands. Neither the change in K_m of the respiratory activity in the presence of isocitrate, nor the change in app. V_max of the NADH-dehydrogenase in the anaerobically treated glands was apparent when puff induction occurred in the presence of actinomycin D or cycloheximide in the incubation medium. The present results indicate that the changes in the pattern of active genes (the occurrence of new puffs) may be related with a change in the respiration of isocitrate and a change in NADH-dehydrogenase activity.