Integral kinetics of the cleavage of maltose catalysed by α-glucosidase fromSaccharomyces carlsbergensis

Summary A new, sensitive and continuous assay for -glucosidase is described exploiting the different angles of rotation for the substrate maltose and the product glucose. Kinetic experiments revealed a very pronounced product inhibition of -glucosidase fromSaccharomyces carlsbergensis with a K_i of 4.85·10^–3 M for glucose.The K_M of maltose was found to be 37.8·10^–3 M. Taking these values, an integral kinetic curve for the enzymatic hydrolysis of maltose was calculated, which is shown to fit the experimental data.Symbols used k₁ (min^–1) pseudo first-order rate constant (for enzymatic cleavage) - k₂ (min^–1) rate constant (for mutarotation reaction) - I, P (mol/1) inhibitor (product) concentration - k_i (mmol/1) inhibitor constant - K_M (mmol/l) Michaelis constant - [M] ₅₈₉ ³⁰ (degree/m · l/mol) molecular rotation at 30°C and 589 nm - s (mmol/l) substrate concentration - R (mmol/mg · min) reaction rate - V_max (mmol/mg · min) maximal rate - U (mol/min) activity unit (here at 30°C and pH=6.8) Indices O initial value - max maximal value     

Quinidine-sensitive K+ channels in the basolateral membrane of embryonic coprodeum epithelium: regulation by aldosterone and thyroxine

Basolateral K⁺ channels and their regulation during aldosterone- and thyroxine-stimulated Na⁺ transport were studied in the lower intestinal epithelium (coprodeum) of embryonic chicken in vitro. Isolated tissues of the coprodeum were mounted in Ussing chambers and investigated under voltage-clamped conditions. Simultaneous stimulation with aldosterone (1 mol·l^-1) and thyroxine (1 mol·l^-1) raised short-circuit current after a 1- to 2-h latent period. Maximal values were reached after 6–7 h of hormonal treatment, at which time transepithelial Na⁺ absorption was more than tripled (77±11 A·cm^-2) compared to control (24±8 A·cm^-2). K⁺ currents across the basolateral membrane with the pore-forming antibiotic amphotericin B and application of a mucosal-to-serosal K⁺ gradient. This K⁺ current could be dose dependently depressed by the K⁺ channel blocker quinidine. Fluctuation analysis of the short-circuit current revealed a spontaneous and a blocker-induced Lorentzian noise component in the power density spectra. The Lorentzian corner frequencies increased linearly with the applied blocker concentration. This enabled the calculation of single K⁺ channel current and K⁺ channel density. Single K⁺ channel current was not affected by stimulation, whereas the number of quinidine-sensitive K⁺ channels in the basolateral membrane increased from 11 to 26·10⁶·cm^-2 in parallel to the hormonal stimulation transepithelial Na⁺ transport. This suggests that the basolateral membrane is a physiological target during synergistic aldosterone and thyroxine regulation of transepithelial Na⁺ transport for maintaining intracellular K⁺ homeostasis.Abbreviations f frequency - f _c Lorentzian corner frequency - g _K single K⁺ channel conductance - HEPES N-2-hydroxyethylpiperazin-N'-2-ethansulfonic acid - i _K single K⁺ channel current - I_Ampho amphotericin B induced K⁺ current - I _sc short-circuit current - I _K quinidine blockable K⁺ current - I _max maximally blocked current by quinidine - IC ₅₀ half-maximal blocker concentration - k _on, k _off on- and off-rate coefficients of reversible single channel block by quinidine - M _K number of conducting K⁺ channels - [Q] quinidine concentration - R _t transepithelial resistance - S spectral density - S _o Lorentzian plateau - TBM cells toad urinary bladder cell line Present address: University of California at Berkeley, Dept. of Molecular and Cell Biology Berkeley, CA 94720, USA     

Ion transport across leech integument

The dorsal skin of the leech Hirudo medicinalis was used for electrophysiological measurements performed in Ussing chambers. The leech skin is a tight epithelium (transepithelial resistance = 10.5±0.5 k· cm^-2) with an initial short-circuit current of 29.0±2.9 A·cm^-2. Removal of Na⁺ from the apical bath medium reduced short-circuit current about 55%. Ouabain (50mol·l^-1) added to the basolateral solution, depressed the short-circuit current completely. The Na⁺ current saturated at a concentration of 90 mmol Na⁺·l^-1 in the apical solution (K _M=11.2±1.8 mmol·l^-1). Amiloride (100 mol·l^-1) on the apical side inhibited ca. 40% of the Na⁺ current and indicated the presence of Na⁺ channels. The dependence of Na⁺ current on the amiloride concentration followed Michaclis-Menten kinetics (K _i=2.9±0.4 mol·l^-1). The amiloride analogue benzamil had a higher affinity to the Na⁺ channel (K _i=0.7±0.2 mol·l^-1). Thus, Na⁺ channels in leech integument are less sensitive to amiloride than channels known from vertebrate epithelia. With 20 mmol Na⁺·l^-1 in the mucosal solution the tissue showed an optimum amiloride-inhibitable current, and the amiloride-sensitive current under this condition was 86.8±2.3% of total short-circuit current. Higher Na⁺ concentrations lead to a decrease in amiloride-blockade short-circuit current. Sitmulation of the tissue with cyclic adenosine monophosphate (100 mol·l^-1) and isobutylmethylxanthine (1 mmol·l^-1) nearly doubled short-circuit current and increased amiloride-sensitive Na⁺ currents by 50%. By current fluctuation analysis we estimated single Na⁺ channel current (2.7±0.9 pA) and Na⁺ channel density (3.6±0.6 channels·m^-2) under control conditions. After cyclic adenosine monophosphate stimulation Na⁺ channel density increased to 5.4±1.1 channels·m^-2, whereas single Na⁺ channel current showed no significant change (1.9±0.2 pA). These data present a detailed investigation of an invertebrate epithelial Na⁺ channel, and show the similarities and differences to vertebrate Na⁺ channels. Whereas the channel properties are different from the classical vertebrate Na⁺ channel, the regulation by cyclic adenosine monophosphate seems similar. Stimulation of Na⁺ uptake by cyclic adenosine monophosphate is mediated by an increasing number of Na⁺ channels.Abbreviations slope of the background noise component - ADH antidiuretic hormone - cAMP cyclic adenosine monophosphate - f frequency - f _c coner frequency of the Lorentzian noise component - Hepes N-hydroxyethylpiperazine-N-ethanesulphonic acid - BMX isobutyl-methylxanthine - i _Na single Na⁺ channel current - I _Na max, maximal inhibitable Na⁺ current - I _SC short circuit current - K _i half maximal blocker concentration - K _M Michaelis constandard error of the mean - S _(f) power density of the Lorentzian noise component - S ₀ plateau value of the Lorentzian noise component - TMA tetramethylammonium - Trizma TRIS-hydroxymethyl-amino-methane - V _max maximal reaction velocity - V _T transepithelial potential - K half maximal blocker concentration     

Fed-batch culture of hybridoma cells: comparison of optimal control approach and closed loop strategies

Control of fed-batch culture of hybridoma cells was investigated based on two approaches optimal control theory and feedback control. Experiments were conducted for both approaches-with a feed enriched in glutamine. The optimal feed trajectory, a decreasing one, yielded a final monoclonal antibody (MAb) concentration of 170 mg/l, a three-fold increase compared to a typical batch operation.The feedback strategy relied on the on-line estimation of the net specific growth rate of cells from the measurement of the CO₂ production rate with a mass-spectrometer. A PI controller was then used to maintain the growth rate at a desired value by adjusting the dilution rate to the reactor. For the chosen set-point (0.1 d^–1), the final MAb concentration achieved was about 100 mg/1. It was found that there was a delay in the assimilation of the glutamine that should be included in the model to explain the lower MAb production in feedback mode. A higher production can be expected also for a lower set-point in feedback operation.List of Symbols Amm mM ammonia concentration - CPR l/(ld) carbon dioxide production rate - D _t l/d dilution rate - e _t l/d control error - F L/d feed flow rate - Glc mM glucose concentration - Gln mM glutamine concentration - Lac mM lactate concentration - I mg performance index - k _d l/d specific death rate - K _damm l/(mM · d) kinetic parameter for death rate - K _dgln mM kinetic parameter for death rate - K _dlac l/(mM·d) kinetic parameter for death rate - K _c l controller gain - K _glc mM kinetic parameter for growth rate - K _gln mM kinetic parameter for growth rate - K _tr L/(cell·d) transport coefficient - K l/d kinetic parameter for Mab production - m _glc mM/(cell·d) maintenance coefficient - M _Ab mg/l monoclonal antibody concentration - P _t covariance matrix - q _glc l/(l·cell·d) specific CO₂ production rate - q _glc mM/(cell·d) specific glucose uptake rate - q _gln mM/(cell·d) specific glutamine uptake rate - q _Mab mg/(l·cell·d) specific monoclonal antibody production - t _f d final culture time - T d sampling rate - u control input - V l reactor volume - X cell/l total cells concentration - X _v cell/l viable cells concentration - Y yield coefficient Greek mg/cell variable yield coefficient - ₀ mg/(cell·d) growth-associated kinetic parameter - mg/(cell·d) non growth-associated kinetic parameter - _t+1 defined by Eq. (19) - forgetting factor - l/d specific growth rate - _max l/d specific growth rate - _i d controller integral time constant     

Conformational Polymorphism and Extensibility of DNA Quadruplexes Formed by d(GT)nRepeats

We showed earlier that oligonucleotides 3"-d(GT)₅-pO(CH₂CH₂O)₃p-d(GT)₅-3" form bimolecular quadruplexes with parallel orientation of their strands, which are held by guanine quartets alternating with unpaired thymines (GT quadruplex). This work deals with the conformational polymorphism and extensibility of G quadruplexes in complex with molecules of an intercalating agent ethidium bromide (EtBr). A cooperative mechanism of EtBr binding to the GT quadruplex was revealed. The binding constant K= (3.3 ± 0.1)·10⁴M^–1, cooperativity coefficient = 2.5 ± 0.2, and maximal amount of EtBr molecules intercalated in GT quadruplex (N= 8) were determined. It was proved experimentally by analysis of adsorption isotherms and theoretically by mathematical modeling that the GT quadruplex is capable of double extension, which is indicative of the high elasticity of this four-stranded helix. Two most stable conformations of GT quadruplexes with thymine residues intercalated and/or turned outside were found by mechanico-mathematical modeling. The equilibrium is shifted toward the conformation with the looped out thymine residues upon intercalation of EtBr molecules into the GT quadruplex.     

Changes in carp myosin ATPase induced by temperature acclimation

Summary Myosins were isolated from dorsal ordinary muscles of carp acclimated to 10°C and 30°C for a minimum of 5 weeks and examined for their ATPase activities. Ca²⁺-ATPase activity was different between myosins from cold-and warm-acclimated carp, especially at KCl concentrations ranging from 0.1 to 0.2 M, when measured at pH 7.0. The highest activity was 0.32 mol P_i·min^-1·mg^-1 at 0.2 M KCl for cold-acclimated carp and 0.47 mol P_i·min^-1·mg^-1 at 0.1 M KCl for warm-acclimated fish. The pH-dependency of Ca²⁺-ATPase activity at 0.5 M KCl for both carp was, however, similar exhibiting two maxima around 0.3 mol P_i·min^-1·mg^-1 at pH 6 and 0.4 mol P_i·min^-1·mg^-1 at pH 9. K⁺(EDTA)-ATPase activity at pH 7.0 neither exhibited differences between both myosins. It increased with increasing KCl concentration showing the highest value of about 0.4 mol P_i·min^-1·mg^-1 at 0.6–0.7 M KCl. Actin-activated myosin Mg²⁺-ATPase activity was markedly different between cold-and warm-acclimated carp. The maximum initial velocity was 0.53 mol P_i·min^-1·mg^-1 myosin at pH 7.0 and 0.05 M KCl for cold-acclimated carp, which was 1.6 times as high as that for warm-acclimated carp. These differences were in good agreement with those obtained with myofibrillar Mg²⁺-ATPase activity between both carp. No differences were, however, observed in myosin affinity to actin. Differences in myosin properties between cold- and warm-acclimated carp were further evidenced by its thermal stability. The inactivation rate constant of myosin Ca²⁺-ATPase was 25·10^-4·s^-1 at 30°C and pH 7.0 for cold-acclimated carp, which was about 4 times as high as that for warm-acclimated carp. Light chain composition did not differ between both carp myosins. The differences in a primary structure of the heavy chain subunit was, however, clearly demonstrated between both myosins by peptide mapping.Abbreviations ATPase adenosine 5-triphosphatase - DTNB 5,5 dithio-bis-2-nitrobenzoic acid - DTT dithiothreitol - EGTA ethyleneglycol bis (-aminoethylether)-N,N,N,N-tetraacetic acid - K _D inactivation rate constant - SDS sodium dodecyl sulfate - SDS-PAGE SDS-polyacrylamide gel electrophoresis     

Über die Vitalfluorochromierung des Kernchromatins und der Chromosomen von HeLa-Zellen mit AMHA und die Bindung des Acridinfarbstoffs an DNA

Summary The fluorochrome AMHA (3-amino-6-methoxy-9-(2-hydroxyethylamino)acridine) stains the nuclear chromatin and the chromosomes of living HeLa cells. At relatively low dye concentrations C _F10^–4 M and short incubation periods t _I2 h cell growth is not affected by the drug. But at higher C _F and longer t _I the population doubling time of the cell cultures rapidly increases, and finally the cells die.In vital staining experiments the dye AMHA preferentially binds to the DNA of the nuclei and to the chromosomes of the cells, respectively. The dye binding to DNA has been proved by the absorption and emission microspectra of the stained cells, and by the comparison with authentic spectra of AMHA bound to DNA in aqueous solutions. Within the limits of experimental errors both types of spectra are identical. The spectra of DNA-bound AMHA show a characteristic gap of ca. 3500 cm^–1 between the 0-0-transitions of the long wave length ¹ L _a absorption and the fluorescence. AMHA molecules dissolved in the polar solvent water have a gap of even 4100 cm^–1. This energy gap shows that the electron distribution of AMHA is strongly changed by light absorption and emission.Finally, using absorption spectroscopy, we investigated the binding of AMHA to DNA in aqueous solutions over a wide range of concentrations of the dye, of nuceleic acid (calf thymus), and of the competitor NaCl respectively. The Scatchard binding isotherms were determined. With the method of competitive salt effect three different bonds of AMHA to DNA can be distinguished even at low dye concentrations: The intercalation 1 of the fluorochrome F, binding constant K _F1=1,1·10⁵ M ^–1, binding parameter n ₁=0,15; the pre-intercalative or external binding 2, K _F2=6,9·10⁵ M ^–1, n ₂=0,21; the external binding 3, K _F3=2,8·10⁵ M ^–1, n ₃=0,55. Externally bound dye molecules 2 and 3 occupy two phosphodiester residues of the DNA. A detailed discussion of the data and the competitive salt effect shows that in living cells only intercalated and small amounts of pre-intercalatively bound molecules 1 and 2 exist. The binding constant K _F1=1,1·10⁵ M ^–1 of AMHA is unusual high in comparison with the constants of intercalation of other dyes, K _F1=(1–4)·10⁴ M ^–1. Therefore, the amount of intercalated AMHA is also relatively high, and it is possible to visualize the DNA-bound fluorochrome in the nuclei and chromosomes of the living cells under the fluorescence microscope.     

Interaction of Human Ribosomal Protein S26 with Fragments of Its Own mRNA and Pre-mRNA in Nuclear Extract of HeLa Cells

As shown by nitrocellulose filtration assays with RNA fragments transcribed from various regions of the human ribosomal protein (rp) S26 gene, recombinant rpS26 binds to the first intron of the rpS26 pre-mRNA (apparent association constant (K _a) 5.0 · 10⁷ M^–1) and, to a lesser extent, to the rpS26 mRNA (K _a 2.0 · 10⁷ M^–1). The binding was specific, since human rpS19 had an order of magnitude lower K _a with the first intron and did not bind with the rpS26 mRNA. Immunoassays with specific antibodies showed that rpS26 contained in the nuclear extract of HeLa cells binds to the first intron of its pre-mRNA and, less efficiently, to its mRNA. In either case, RNA binding substantially increased in the presence of recombinant rpS26. Along with other (48K, 59K) nuclear proteins, rpS26 was assumed to form complexes, the functional role of which is storage of pre-mRNAs inactive in splicing.     

Mechanistic origin of the kinetic cooperativity for the ATPase activity of sarcoplasmic reticulum

The (Ca²⁺-Mg²⁺)-ATPase from sarcoplasmic reticulum presents negative cooperativity for the hydrolysis of Mg²⁺-ATP at different concentration ranges of this substrate. A kinetic model is proposed according to which Mg²⁺-ATP may bind to three different enzymatic species present during the catalytic cycle, E (K ₁=1 µM), EP.Ca₂ (K ₉=500 µM) and *EP (K ₇=20 µM), accelerating the release of P_i. The fact that each of these species has a different affinity for Mg²⁺-ATP allows a significant enhancement of the rate of P_i release to the medium at the different ranges of Mg²⁺-ATP concentration where the enzyme shows a kinetic cooperativity. The kinetic analysis of this mechanism yields an equation which is a ratio of two cubic polynomials (3:3 rate equations) with respect to Mg²⁺-ATP and which may explain the negative cooperativity of the enzyme at different concentration ranges of Mg²⁺-ATP.Abbreviations: EGTA, ethylene glycol bis(-aminoethylether)-N,N,N,N-tetraacetic acid; I.U., international units; piruvate kinase (EC 2.7.1.40); lactate dehydrogenase (EC 1.1.1.27); ATP phosphohydrolase (EC 3.8.1.3).     

Study of Secondary Specificity of Enteropeptidase in Comparison with Trypsin

A comparative study of secondary specificities of enteropeptidase and trypsin was performed using peptide substrates with general formula A-(Asp/Glu) _n -Lys(Arg)--B, where n = 1-4. This was the first study to demonstrate that, similar to other serine proteases, enteropeptidase has an extended secondary binding site interacting with 6-7 amino acid residues surrounding the peptide bond to be hydrolyzed. However, in the case of typical enteropeptidase substrates containing four negatively charged Asp/Glu residues at positions P2-P5, electrostatic interaction between these residues and the secondary site Lys99 of the enteropeptidase light chain is the main factor that determines hydrolysis efficiency. The secondary specificity of enteropeptidase differs from the secondary specificity of trypsin. The chromophoric synthetic enteropeptidase substrate G₅DK-F(NO₂)G (k _cat/K _m = 2380 mM^–1·min^–1) is more efficient than the fusion protein PrAD₄K-P26 (k _cat/K _m = 1260 mM^–1·min^–1).     

Function and regulation of the avian caecal bulb: influence of dietary NaCl and aldosterone on water and electrolyte fluxes in the hen (Gallus domesticus) perfused in vivo

Summary The function of the caecal bulb, and its adaptation to chronic high- or low-Na⁺ intake, was investigated by in vivo perfusion of anaesthetised birds. Effects of acute aldosterone injection (125 g·kg^–1 body mass) were also measured.Evidence was found for primary active net absorption of Na⁺, inducing parallel Na-linked absorption of water and Cl^– and secretion of K⁺. Around 20–35% of total Cl^– absorption and K⁺ secretion were independent of Na⁺ fluxes, and these components appear to be driven by passive processes with apparent conductances of 6.3×10^–3 (G _Cl) and 1.1×10^–3 (G _K) S·cm^–2.Acetate (40mM) stimulated Na⁺ fluxes (8.5–9.9 Eq·cm^–2·h^–1) and Na-linked water fluxes (27–44 l·cm^–2·h^–1). Increased coupling ratios (2.9–4.6 l·Eq^–1) and other data indicate that these effects may be due to increased osmotic permeabilities of barriers involved in the Na-linked water transfer pathway.Low-Na⁺ maintenance enhanced EPD (49–69 mV, serosa positive) and all net fluxes:J _Na (6.8–11.6);J _K (–3.2––4.3);J _Cl (4.3–5.6 Eq·cm serosal area^–2·h^–1);J _v (28–43 l·cm^–2·h^–1) (mucosal-serosal fluxes positive).Acute aldosterone enhancedJ _Na (10.8–14.0 Eq·cm^–2·h^–1) and EPD (54–66 mV) by 3 h after injection, but had no effect on the Na-linked components ofJ _K orJ _Cl.Abbreviations ECPD, EPD Electrochemical or electrical potential difference - G _Cl ,G _K ionic conductances (Cl^–, K⁺) - J _v ,J _ion net volume or ion flux rate, mucosa-serosa positive;P _d (Cl) diffusive permeability coefficient (of Cl^–) - SEDM standard error of difference between means     

Development of aldosterone-stimulation of short-circuit current across larval frog skin

Summary The short-circuit current (SCC) across isolated skin from bullfrog larvae in developmental stage XXI was small and insensitive to amiloride. Overnight incubation of this tissue with 10^-6 M aldosterone stimulated the SCC from 1.35±0.55 to 14.55±4.12 A·cm^-2 with 11.18±4.46 A·cm^-2 being blocked by 100 M amiloride. Histologic examination of aldosterone-treated skins revealed a separation of the apical cell layer from the underlying epidermis that was not seen in untreated preparations. The onset of amiloride-sensitive Na⁺ transport thus coincided with the exposure of the apical surface of newly differentiated epithelial cells. Similar results were obtained with skin from stage XXI larvae whose rate of metamorphosis had been stimulated by 10 g·l^-1 thyroxine (T₄) but not with skin from T₄-treated larvae in stages XIX and XX. Fluctuation analysis of the amiloride-sensitive SCC of the above preparations failed to show a consistent Lorentzian component in the power-density spectrum. Fluctuation analysis was possible on skins from larvae whose development had been accelerated by 7–9 days treatment with 10 g·l^-1 triiodothyronine (T₃). Aldosterone treatment of these tissues resulted in a significant increase in Na⁺ channel density.Abbreviations ASCC component of the short-circuit current (A·cm^-2) that is blocked by amiloride - fc frequency (Hz) at which the magnitude of the Lorenzian component of the power spectra is reduced by half - i current (pA) through individual amiloride-sensitive Na⁺ channels - I _Na+ amiloride-sensitive short-circuit current (A·cm^-2) that remains after treatment with a given amiloride concentration - k ₀₁ the rate constant (s^-1·M^-1) for the association of amiloride with Na⁺ channels - k ₁₀ rate constant (s^-1) for the dissociation of amiloride from Na⁺ channels - K _b magnitude of the power spectrum (A²·s·cm^-2) at a frequency of 1 Hz - KSCC short-circuit (A·cm^-2) current with K⁺ as the primary mucosal cation - M density of amiloride-sensitive Na⁺ channels in the apical cell membrane - SCC short-circuit current (A·cm^-2) - S _(f) magnitude of the power spectra (A²·s·cm^-2) at a given frequency - S ₀ the magnitude of the plateau region of the Lorentzian component of the power spectra (A²·s·cm^-2) - T ₃ Triiodothyronine - T ₄ Thyroxine     

Intraparticle mass-transfer resistance and apparent time stability of immobilized yeast alcohol dehydrogenase

The stability and, consequently, the lifetime of immobilized enzymes (IME) are important factors in practical applications of IME, especially so far as design and operation of the enzyme reactors are concerned. In this paper a model is presented which describes the effect of intraparticle diffusion on time stability behaviour of IME, and which has been verified experimentally by the two-substrate enzymic reaction. As a model reaction the ethanol oxidation catalysed by immobilized yeast alcohol dehydrogenase was chosen. The reaction was performed in the batch-recycle reactor at 303 K and pH-value 8.9, under the conditions of high ethanol concentration and low coenzyme (NAD⁺) concentration, so that NAD⁺ was the limiting substrate. The values of the apparent and intrinsic deactivation constant as well as the apparent relative lifetime of the enzyme were calculated.The results show that the diffusional resistance influences the time stability of the IME catalyst and that IME appears to be more stabilized under the larger diffusion resistance.List of Symbols C _A, C_B, C_E mol · m^–3 concentration of coenzyme NAD⁺, ethanol and enzyme, respectively - C _p mol · m³ concentration of reaction product NADH - d _p mm particle diameter - D _eff m² · s^–1 effective volume diffusivity of NAD⁺ within porous matrix - k _d s^–1 intrinsic deactivation constant - K _A, K_A, K_B mol · m^–3 kinetic constant defined by Eq. (1) - K _A ^x mol · m^–3 kinetic constant defined by Eq. (5) - r _A mol · m^–3 · s^–1 intrinsic reaction rate - R m particle radius - R _v mol · m^–3 · s^–1 observed reaction rate per unit volume of immobilized enzyme - t _E s enzyme deactivation time - t _r s reaction time - V mol · m^–3 · s^–1 maximum reaction rate in Eq. (1) - V ^x mol · m^–3 · s^–1 parameter defined by Eq. (4) - V _f m³ total volume of fluid in reactor - w _s kg mass of immobilized enzyme bed - factor defined by Eqs. (19) and (20) - kg · m^–3 density of immobilized enzyme bed - unstableness factor - effectiveness factor - Thiele modulus - relative half-lifetime of immobilized enzyme Index o values obtained with fresh immobilized enzyme     

Characteristics of ouabain binding to isolated trout hepatocytes

Summary Na⁺, K⁺ exchanges were studied in isolated hepatocytes of the rainbow trout, Salmo gairdneri. Ouabain at 10^–4 M produced maximal inhibition (95%) of K⁺ uptake and enhanced intracellular Na⁺ accumulation, showing that active fluxes account for a very large proportion of Na⁺ and K⁺ exchanges. Inhibition of the Na–K pump by ouabain was significant at low concentrations (10^–8 M). When external K⁺ concentration was reduced from 7 mM to 0.5 mM, half maximum inhibition (IC₅₀) of K⁺ uptake was obtained at a 22-fold lower concentration of ouabain confirming that ouabain and potassium compete at the same pump site. Time-course analysis of [³H]ouabain binding indicated a two-component kinetics: one component saturable and dependent on K⁺ concentration in the medium, the other linear and independent of external K⁺. The ouabain binding site number, determined by Scatchard plots, remained constant (ca. 2.5·10⁵ per cell) and independent of the external K⁺ concentration (7, 0.5 or 0 mM), while the dissociation constant (K_D) decreased from 4.2 M to 7.3 nM when K⁺ was removed from the Hank's medium. These ouabain binding sites are characterized by an exceptionally low turnover rate (400 min^–1), as estimated from ouabain-sensitive K⁺ flux, in comparison to those described in other cell types of higher vertebrates. At each external K⁺ concentration studied, the inhibition of K⁺ uptake and ouabain binding measured as a function of ouabain concentration indicated a strict correlation between the degree of K pump inhibition and the amount of bound glycoside.     

Mechanism of vasorelaxation caused by N-Benzylsecoboldine in rat thoracic aorta

The vasorelaxing effect of N-benzylsecoboldine on the rat thoracic aorta was investigated, and we also compare it with nifedipine and cromakalim. In high K⁺ (60 mM) medium, Ca²⁺ (0.03–3 mM)-induced vasoconstriction was inhibited concentration-dependently by N-benzylsecoboldine, whereas this contraction was not altered by cromakalim. Cromakalim relaxed aortic rings precontracted with 15 but not 60 mM of K⁺. N-benzylsecoboldine and nifedipine were more potent and effective in producing relaxation in 60 mM than in 15 mM K⁺-induced contraction. N-benzylsecoboldine was found to be an ₁-adrenoceptor-blocking agent in rat thoracic aorta as revealed by its competitive antagonism of phenylephrine (PE)-induced contraction (pA₂=6.31 ± 0.04, pA₁₀=5.41 ± 0.03). This relaxing effect of N-benzylsecoboldine was not antagonized by indomethacin or methylene blue, and still persisted in endothelium-denuded aorta or in the presence of nifedipine (1 µM). The increase of inositol monophosphate caused by PE in rat aorta was significantly suppressed by N-benzylsecoboldine, but not by nifedipine or cromakalim. High concentration of N-benzylsecoboldine (100 µM) did not affect the contraction induced by B-HT 920, serotonin or PGF₂. Glibenclamide and charybdotoxin did not affect the relaxation of N-benzylsecoboldine in aortic rings precontracted with PE. Neither cGMP nor cAMP levels were changed by N-benzylsecoboldine. We suggest that N-benzyl-secoboldine relaxes rat thoracic aorta by suppressing the Ca²⁺ influx and also has antagonistic effect on ₁-adrenoceptors.     

Elektron-Spin-Resonanz-Untersuchungen der Reaktionskinetik strahleninduzierter freier Radikale des Cholesterins

Zusammenfassung Die Reaktionskinetik strahleninduzierter freier Radikale des Cholesterins wurde in flüssiger Phase bei Raumtemperatur mittels ESR-Spektroskopie untersucht. Mit Hilfe eines geeigneten photochemischen Initiationssystems ließen sich in Cyclohexanlösung unter UV-Bestrahlung (235 nm265 nm) genau dieselben freien Radikale des Cholesterins darstellen, die schon früher [9, 7] in röntgenbestrahltem Cholesterinpulver beobachtet worden waren. Bei ausreichendem O₂-Partialdruck (3·10⁴Torr) über der Probenlösung trat das ESR-Spektrum eines Peroxyradikals auf, das mittels der Analyse seiner Reaktionsprodukte (7-Hydroxy-Cholesterin und 7-Keto-Cholesterin) mit dem Cholesteryl-7-peroxyradikal identifiziert wurde. Die Kinetik sowohl der Bildung als auch des Zerfalls des Radikals entsprachen einer Reaktion von 2. Ordnung. Die Geschwindigkeitskonstante für den bimolekularen Zerfall, eine Disproportionierung in Alkohol und Keton unter Abgabe eines Moleküls O₂, wurde bei Raumtemperatur zuk ₂=(1,8 _–0,6 ^+0,9 )·10⁶ sec^–1M^–1·l bestimmt. Ferner wurde gezeigt, daß das Cholesteryl-7-peroxyradikal aus dem freien Radikal Cholesteryl-7 durch Anlagerung eines Moleküls O₂ entsteht. Für die Geschwindigkeitskonstante dieser Reaktion ergab sich eine untere Schranke vonk ₁=0,40·10¹⁰ sec^–1M^–1·l.

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Electron spin resonance investigations on radiation-induced free radicals of cholesterol in liquid phase

Summary The reaction kinetics of radiation-induced free radicals of cholesterol was studied in liquid phase at room temperature by means of e.s.r. spectroscopy on a solution of cholesterol in cyclohexane. Using a convenient photochemical initiation system, just those free radicals of cholesterol could be generated by the filtered u.v. radiation from a Xe high pressure lamp (235 nm265 nm) as were observed already a decade ago by Gordy [9] and by Ehrenberg, Löfroth [7] in X-irradiated cholesterol powder. At sufficiently high O₂-pressures (3·10^–4 Torr) over the sample solution a peroxy radical e.s.r. spectrum arose during u.v. irradiation which was identified by product analysis (7-hydroxy-cholesterol and 7-keto-cholesterol) to be dueto a cholesteryl-7-peroxyradical. The radical'sgeneration and decay kinetics was governed by a second order reaction. The velocity constant for bimolecular decay of the cholesteryl-7-peroxyradical was found to be k₂=(1.8 _–0,6 ^+0,9 )·10⁶sec^–1M^–1·l at room temperature. Furthermore it could be shown that the cholesteryl-7-peroxyradical was built up by the addition of one molecule of O₂ to a cholesteryl-7 free radical. For this reaction a value ofk ₁=0.4·10¹⁰ sec^–1 M^–1·l was estimated as a lower limit of the velocity constant.

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Die Arbeit stellt einen Auszug aus einer Dissertation an der Technischen Hochschule München dar.     

Purification and properties ofl-serine dehydratase fromLactobacillus fermentum ATCC 14931

l-Serine dehydratase fromLactobacillus fermentum was purified 100-fold. It was stabilized by the presence of 1 mM l-cysteine in 50 mM phosphate buffer. M_r=150,000 was determined by gel filtration. The enzyme consists of four apparently identical subunits (M_r=40,000) that were observed after treatment with sodium dodecyl sulfate. The apparent K_m forl-serine was 65 mM. Fe⁺⁺ was required for the enzymatic activity, and the apparent K_m value for this reaction was 0.55 mM. Maximum enzymatic activity was observed at 45°C and pH 8.0 in 50 mM phosphate buffer. At pH values different from the optimum, a positive cooperativity between substrate molecules was observed. The activation energy of the reaction was 11,400 and 22,800 cal × mol^–1 for temperature values more than and less than 35°C respectively. The purified enzyme showed a maximum absorption between 400 and 420 nm, indicating the presence of pyridoxal-5-phosphate (PLP) as a prosthetic group. The PLP concentration was 0.027 µmoles per milligram of protein. The data suggest that there is 1 mol of PLP for each protein subunit.     

Initial reaction kinetics of succinate dehydrogenase in mouse liver studied with a real-time image analyser system

Summary The initial reaction kinetics of succinate dehydrogenase in situ were investigated in sections of mouse unfixed liver using an ARGUS-100 image analyser system. The sections were incubated on substrate-containing agarose gel films. Images of a section, illuminated with monochromatic light (584 nm), were captured with the image analyser in real time at intervals of 10 s during the incubation. The absorbances of selected hepatocytes in the successive images were determined as a function of time. In every cell, the absorbance increased non-linearly after the first minute of incubation. The initial velocity of the dehydrogenase was calculated from the linear activities during the first 20 s of incubation. Hanes plots of the initial velocities and succinate concentration yielded the following mean kinetic constants. For periportal hepatocytes, the apparentK _m=1.2±0.8 mM andV _max=29±2 mol hydrogen equivalents formed/cm³ hepatocyte cytoplasm per min. For pericentral hepatocytes,K _m=1.4±1.0 mM andV _max=21±2 mol hydrogen equivalents/cm³ per min. TheK _m values are very similar to those determined previously from biochemical assays. These results, and the observed dependence of the initial velocity on the enzyme concentration, suggest that the technique reported here is valid for the histochemical assay of succinate dehydrogenase.     

Continuous chemotrophic growth and respiration of Chromatiaceae species at low oxygen concentrations

Endogenous and maximum respiration rates of nine purple sulfur bacterial strains were determined. Endogenous rates were below 10 nmol O₂ · (mg protein · min)^-1 for sulfur-free cells and 15–35 nmol O₂ · (mg protein · min)^-1 for cells containg intracellular sulfur globules. With sulfide as electron-donating substrate respiration rates were considerably higher than with thiosulfate. Maximum respiration rates of Thiocystis violacea 2711 and Thiorhodovibrio winogradskyi SSP1 (254.8 and 264.2 nmol O₂ · (mg protein · min)^-1, respectively) are similar to those of aerobic bacteria. Biphasic respiration curves were obtained for sulfur-free cells of Thiocystis violacea 2711 and Chromatium vinosum 2811. In Thiocystis violacea the rapid and incomplete oxidation of thiosulfate was five times faster than the oxidation of stored sulfur. A high affinity of the respiratoty system for oxygen (K _m =0.3–0.9 M O₂, V _max=260 nmol O₂ · (mg protein · min)^-1 with sulfide as substrate, K _m =0.6–2.4 M O₂, V _max=14–40 nmol O₂ · (mg protein · min)^-1 with thiosulfate as substrate), for sulfide (K _m =0.47 M, V _max=650 nmol H₂S · (mg protein × min)^-1, and for thiosulfate (K _m =5–6 M, V _max =24–72 nmol S₂O ₃ ^2- · (mg protein · min)^-1 was obtained for different strains. Respiration of Thiocystis violacea was inhibited by very low concentrations of NaCN (K _i =1.7 M) while CO concentrations of up to 300 M were not inhibitory. The capacity for chemotrophic growth of six species was studied in continuous culture at oxygen concentrations of 11 to 67 M. Thiocystis violacea 2711, Amoebobacter roseus 6611, Thiocapsa roseopersicina 6311 and Thiorhodovibrio winogradskyi SSP1 were able to grow chemotrophically with thiosulfate/acetate or sulfide/acetate. Chromatium vinosum 2811 and Amoebobacter purpureus ML1 failed to grow under these conditions. During shift from phototrophic to chemotrophic conditions intracellular sulfur and carbohydrate accumulated transiently inside the cells. During chemotrophic growth bacteriochlorophyll a was below the detection limit.     

Photosynthesis and apparent affinity for dissolved inorganic carbon by cells and chloroplasts of Chlamydomonas reinhardtii grown at high and low CO2 concentrations

Chloroplasts with high rates of photosynthetic O₂ evolution (up to 120 mol O₂· (mg Chl)^-1·h^-1 compared with 130 mol O₂· (mg Chl)^-1·h^-1 of whole cells) were isolated from Chlamydomonas reinhardtii cells grown in high and low CO₂ concentrations using autolysine-digitonin treatment. At 25° C and pH=7.8, no O₂ uptake could be observed in the dark by high- and low-CO₂ adapted chloroplasts. Light saturation of photosynthetic net oxygen evolution was reached at 800 mol photons·m^-2·s^-1 for high- and low-CO₂ adapted chloroplasts, a value which was almost identical to that observed for whole cells. Dissolved inorganic carbon (DIC) saturation of photosynthesis was reached between 200–300 M for low-CO₂ adapted chloroplasts, whereas high-CO₂ adapted chloroplasts were not saturated even at 700 M DIC. The concentrations of DIC required to reach half-saturated rates of net O₂ evolution (K_m(DIC)) was 31.1 and 156 M DIC for low- and high-CO₂ adapted chloroplasts, respectively. These results demonstrate that the CO₂ concentration provided during growth influenced the photosynthetic characteristics at the whole cell as well as at the chloroplast level.Abbreviations Chl chlorophyll - DIC dissolved inorganic carbon - K_m(DIC) coneentration of dissolved inorganic carbon required for the rate of half maximal net O₂ evolution - PFR photon fluence rate - SPGM silicasol-PVP-gradient medium