Ion movements associated with chorion elevation during egg laying in trout (Oncorhynchus mykiss) in fresh water

Within 1 min of transfer from coelomic fluid to fresh water, eggs of rainbow trout (Oncorhynchus mykiss) underwent a transient loss of Na⁺ and K⁺ coupled with an elevation of the chorionic envelope. Both mechanisms were blocked by adding a monovalent cation Li⁺ or K⁺ (140 mmol·l^-1) to the fresh water, but the divalent ion Mg²⁺ (100 mmol MgCl₂·l^-1) or elevating the osmotic pressure to 300 mOsmol·l^-1 with glycine had no inhibitory effect. The blocking of Na⁺ loss occurred at external monovalent cation (LiCl) concentrations above 70 mmol·l^-1. A 20-s exposure of eggs to fresh water was sufficient to trigger Na⁺ loss and chorion elevation, even when the eggs were subsequently transferred to fresh water containing 140 mmol LiCl·l^-1. Eggs placed in a medium containing 140 mmol LiCl·l^-1 and 2 mmol Ca(NO₃)₂·l^-1 showed chorion elevation and associated Na⁺ loss after addition of calcium ionophore (20 mol·l^-1 A.23187). This activation by calcium ionophore was supressed in a Ca²⁺-free medium containing 5 mmol EGTA·l^-1.     

Effect of pH on transepithelial electrical parameters in seawater-adapted eel intestine

The sensitivity to external pH of Cl^- absorption was studied in isolated stripped intestinal mucosa of the eel, Anguilla anguilla, mounted in Ussing chambers. Short-circuit current, transepithelial potential difference and conductance were measured in bathing solutions containing various combinations of HCO₃ ^--concentration (0–25 mmol·l^-1), partial pressure of CO₂ (0–76 mm Hg) and pH (6.9–7.9). A linear relationship was found between pH and short-circuit current in the range of pH studied both in HCO₃ ^-/CO₂ Ringer and in Hepes Ringer. The pH effect was almost completely reversible. It was not affected by the presence of mucosal Ba²⁺ (10^-3 mol·l^-1) but it was inhibited by the presence of luminal (10^-5 mol·l^-1) or serosal (10^-4 mol·l^-1) bumetanide. The results obtained suggest that the Cl^- absorption in the European eel intestine is pH sensitive. The data do not indicate whether the pH affects directly the Na⁺–K⁺–Cl^- cotransport and/or the basolateral Cl^- conductance or other mechanisms indirectly linked to Cl^- absorption.Abbreviations g _t transepithelial conductance - Hepes N-2-Hydroxyethylpiperazine-N'-2-ethanesulfonic acid - I _sc short circuit current - R _t transepithelial resistence - V _t transepithelial potential difference     

Action potential duration and force-frequency relationship in isolated rabbit,guinea pig and rat cardiac muscle

The effect of action potential duration and elevated cytosolic sodium concentration on the forcefrequency relationship in isolated rabbit, guinea pig and rat papillary muscle preparations was studied. Shortening of action potential duration in guinea pig and rabbit from 150–200 ms to values characteristic of rat (20–40 ms), using the K_(ATP) channel activator levkromakalim (15 mol·l^–1), markedly reduced the force of contraction and converted the positive force-frequency relationship into negative one at longer pacing cycle lengths. This conversion was greatly enhanced in the presence of acetylstrophanthidin (0.2–1 mol·l^–1), an inhibitor of the Na-K pump. Acetylstrophanthidin (1 mol·l^–1) alone, however, had no effect on the forcefrequency relationship. Prolongation of action potential duration in rat with inhibitors of cardiac K channels (4-aminopyridine [10 mmol·l^–1] plus tetraethylammonium [2 mmol·l^–1) increased the force of contraction and abolished the negative force-frequency relationship observed in rat at longer pacing-cycle lengths. It is concluded that both action potential duration and cytosolic sodium concentration are major determinants of the force-frequency relationship in mammalian myocardium.Abbreviations AC acetylstrophanthidin - APD action potential duration - APD ₅₀ and APD ₉₀ action potential duration measured at 50% and 90% level of repolarization, respectively - SR sarcoplasmic reticulum     

Response of chloride efflux from skeletal muscle ofRana pipiens to changes of temperature and membrane potential and diethylpyrocarbonate treatment

Summary Efflux of³⁶Cl^– from frog sartorius muscles equilibrated in two depolarizing solutions was measured. Cl^– efflux consists of a component present at low pH and a pH-dependent component which increases as external pH increases.For temperatures between 0 and 20°C, the measured activation energy is 7.5 kcal/mol for Cl^– efflux at pH 5 and 12.6 kcal/mol for the pH-dependent Cl^– efflux. The pH-dependent Cl^– efflux can be described by the relationu=1/(1+10n(pK _a -pH)), whereu is the Cl^– efflux increment obtained on stepping from pH 5 to the test pH, normalized with respect to the increment obtained on stepping from pH 5 to 8.5 or 9.0. For muscles equilibrated in solutions containing 150mm KCl plus 120mm NaCl (internal potential about –15 mV), the apparent pK _a is 6.5 at both 0 and 20°C, andn=2.5 for 0°C and 1.5 for 20°C. For muscles equilibrated in solutions containing 7.5mm KCl plus 120mm NaCl (internal potential about –65 mV), the apparent pK _a at 0°C is 6.9 andn is 1.5. The voltage dependence of the apparent pK _a suggests that the critical pH-sensitive moiety producing the pH-dependent Cl^– efflux is sensitive to the membrane electric field, while the insensitivity to temperature suggests that the apparent heat of ionization of this moiety is zero. The fact thatn is greater than 1 suggests that cooperativity between pH-sensitive moieties is involved in determining the Cl^– efflux increment on raising external pH.The histidine-modifying reagent diethylpyrocarbonate (DEPC) applied at pH 6 reduces the pH-dependent Cl^– efflux according to the relation, efflux=exp(–k·[DEPC]·t), wheret is the exposure time (min) to DEPC at a prepared initial concentration of [DEPC] (mm). At 17°C,k ^–1=188mm·min. For temperatures between 10 and 23°C,k has an apparent Q₁₀ of 2.5. The Cl^– efflux inhibitor SCN^– at a concentration of 20mm substantially retards the reduction of the pH-dependent Cl^– efflux by DEPC. The findings that the apparent pK _a is 6.5 in depolarized muscles, that DEPC eliminates the pH-dependent Cl^– efflux, and that this action is retarded by SCN^– supports the notion that protonation of histidine groups associated with Cl^– channels is the controlling reaction for the pH-dependent Cl^– efflux.     

Quantitative analysis of calcium gradients and activity in growing pollen tubes ofLilium longiflorum

Summary Pollen tubes ofLilium longiflorum were loaded with quin-2 to determine the cytoplasmic free calcium. Quin-2-fluorescence was detected at 500 nm with alternating excitation at 340 nm and 360 nm. The calcium²⁺-concentration was obtained using the intensity ratio R=I₃₄₀/I₃₆₀. The analysis exhibits a [Ca²⁺] of nearly 10^–7mol·l^–1 in the tip region and about 2·10^–8 mol·l^–1at the tube base, near the pollen grain. The data give evidence for the existence of a continuous gradient of free calcium within growing pollen tubes of various length.     

Effects of aluminum,calcium and low pH on egg hatching and nymphal survival of Cloeon triangulifer McDunnough (Ephemeroptera: Baetidae)

Laboratory experiments were conducted to assess the effects of aluminum, calcium and low pH on egg hatching and nymphal survival of the mayfly Cloeon triangulifer. Percent successful hatch (living nymphs breaking free of the chorion) decreased and percent partial hatch (nymphs dying attached to the chorion) increased with increasing acidity (pH 7.5–3.0). Most hatches occurring below pH 5.0 were partial hatches. Decreased time of exposure to acidic waters increased percent successful hatch and decreased percent partial hatch. Time to first hatch was not affected by pH. Eggs were incubated in acidic waters (pH 4.0 and 5.5) with additions of calcium (10 and 100 mg l^–1) and aluminum (100 and 500 g l^–1). Aluminum decreased percent successful hatch and increased percent partial hatch and calcium increased both percent successful hatch and percent partial hatch. Time to first hatch was increased by both aluminum and calcium. The 96 h LC50 for small nymphs was pH 4.75. Addition of aluminum (100 and 500 µg l^–1) to acidic waters (pH 4.0 and 5.0) reduced nymphal mortality by 8–22%. Toxic effects of low pH on egg hatching and early nymphs may contribute to the absence of mayflies from acidified habitats.Contribution No. 1469 of the Maine Agricultural Experiment Station, University of Maine, Orono, Maine 04469 USA.Contribution No. 1469 of the Maine Agricultural Experiment Station, University of Maine, Orono, Maine 04469 USA.     

Ca2+ transport by opercular epithelium of the fresh water adapted euryhaline teleost,Fundulus heteroclitus

We examined transepithelial transport of Ca²⁺ across the isolated opercular epithelium of the euryhaline killifish adapted to fresh water. The opercular epithelium, mounted in vitro with saline on the serosal side and fresh water (0.1 mmol·l^–1 Ca²⁺) bathing the mucosal side, actively transported Ca²⁺ in the uptake direction; net flux averaged 20–30 nmol·cm^–2·h^–1. The rate of Ca²⁺ uptake varied linearly with the density of mitochondria-rich cells in the preparations. Ca²⁺ uptake was saturable, apparent K _1/2 of 0.348 mmol·l^–1, indicative of a multistep transcellular pathway. Ca²⁺ uptake was inhibited partially by apically added 0.1 mmol·l^–1 La³⁺ and 1.0 mmol·l^–1 Mg²⁺. Addition of dibutyryl-cyclic adenosine monophosphate (0.5 mmol·l^–1)+0.1 mmol·l^–1 3-isobutyl-l-methylxanthine inhibited Ca²⁺ uptake by 54%, but epinephrine, clonidine and isoproterenol were without effect. Agents that increase intracellular Ca²⁺, thapsigargin (1.0 mol·l^–1, serosal side), ionomycin (1.0 mol·l^–1, serosal side) and the calmodulin blocker trifluoperazine (50 mol·l^–1, mucosal side) all partially inhibited Ca²⁺ uptake. In contrast, apically added ionomycin increased mucosal to serosal unidirectional Ca²⁺ flux, indicating Ca²⁺ entry across the apical membrane is rate limiting in the transport. Verapamil (10–100 mol·l^–1, mucosal side), a Ca²⁺ channel blocker, had no effect. Results are consistent with a model of Ca²⁺ uptake by mitochondria rich cells that involves passive Ca²⁺ entry across the apical membrane via verapamil-insensitive Ca²⁺ channels, intracellular complexing of Ca²⁺ by calmodulin and basolateral exit via an active transport process. Increases in intracellular Ca²⁺ invoke a downregulation of transcellular Ca²⁺ transport, implicating Ca²⁺ as a homeostatic mediator of its own transport.Abbreviations DASPEI 2-(4-dimethylaminostyryl)-N-ethylpyridinium iodide - db-cAMP dibutyryl-cyclic adenosine monophosphate - FW fresh water - G _t transepithelial conductance - I _sc short-circuit current - IBMX 3-isobutyl-1-methylxanthine - SW sea water - TFP trifluoperazine - V _t transepithelial potential     

Thermal behavior of round and wagtail dancing honeybees

The thermal behavior of round and wagtail dancing honeybees (Apis mellifera carnica) gathering sucrose solutions of concentrations between 0.5 and 2 mol·l^-1 was investigated under field conditions by infrared thermography (30–506 m flight distance). During the stay inside the hive thoracic surface temperature ranged from 31.4 to 43.9 °C. In both round and wagtail dancing honeybees the concentration of sucrose in the food influenced dancing temperature in a non-linear way. Average dancing temperature was 37.9 °C in foragers gathering a 0.5 mol·l^-1 sucrose solution, 40.1°C with a 1 mol·l^-1, 40.6°C with a 1.5 mol·l^-1 and 40.7°C with a 2 mol·l^-1 solution. The variability of thoracic temperature was highest with the 0.5 mol·l^-1 and lowest with the 1.5 and 2 mol·l^-1 concentrations. Thoracic temperatures during trophallactic contact with hive bees were similar to dancing temperature at 1.5 mol·l^-1 but lower at the other concentrations. During periods of distribution of food to hive bees (trophallactic contact >2.5s) the dancers' thorax cooled down by more than 0.5°C considerably more frequently with the 0.5 mol·l^-1 solution (65% of cases) than with the 1.5 mol·l^-1 solution (26%). By contrast, heating the thorax up by more than 0.5°C was infrequent with the 0.5 mol·l^-1 solution (2%) but occurred at a maximum rate of 26% with the 1.5 mol·l^-1 solution. Bees gathering the 1 or 2 mol·l^-1 solutions showed intermediate behavior. Linear model analysis showed that at higher concentrations the dancers compensated better for variations of hive air temperature: per 1 °C increase of hive temperature dancing temperature increased by 0.34, 0.22, 0.12, and 0.13 °C with 0.5, 1, 1.5, and 2 mol·l^-1 sucrose solutions, respectively. The results furnish evidence that dancing honeybees follow a strategy of selective heterothermy by tuning their thermal behavior to the needs of the behavior performed at the moment. Thoracic temperature is regulated to a high level and more accurately when fast exploitation of profitable food sources is recommended. Thoracic temperature is lowered when the ratio of gain to costs of foraging becomes more unfavorable.Abbreviations SD standard deviation - SD _reg SD around regression line - H _rel relative humidity at feeding station - T _a air temperature at feeding station - T _i air temperature near the dancers - T _d Thoracic surface temperatures - T _d dancing - T _tr trophallactic contact (distribution of food) - T _w walking - T _stay mean temperature of total stay in the hive     

Ion-exchange phenomena regulate the environment of embryos in the eggs of freshwater fish

• 1.1. Calcium-selective microelectrodes have been used to measure the activity of calcium in the perivitelline fluid of brown trout eggs, exposed to water with a range of Ca²⁺ concentrations. Trans-chorion potential differences were also measured.
• 2.2. These values are compared with those predicted by a model based on ion-exchange theory and the Donnan equilibrium. The model allows for partial-dissociation of acid-groups in both the perivitelline fluid and the chorion, and the effects of external pH and ion concentration on this dissociation. The ion-exchange properties of perivitelline fluid and chorion were determined by acid-base titration.
• 3.3. The model has the potential to predict the effects of external pH and ion concentration on the distribution of many ions in fish eggs; especially in nutrient-poor waters. It is particularly relevant, therefore, to studies of acidification and metal pollution.

     

Plasma membrane potential of Lettré cells does not depend on cation gradients but on pumps

Summary The plasma membrane potential of Lettré cells has been determined with the optical indicator oxonol-V and found to be –57 mV at 37°C (range –20 to –80 mV depending on the physiological condition of the cells). Increasing extracellular K⁺ does not depolarize cells: even in the presence of 155mM K⁺ the potential is –41 mV; membrane potential is also insensitive to the chemical gradient of Na⁺,Mg²⁺, Ca²⁺ or Cl^–. Ouabain depolarizes the cells; H⁺ efflux from cells is stimulated by extracellular Na⁺. We propose that in Lettré cells the plasma membrane potential is generated by electrogenic cation pumps. The balancing fluxes of Na⁺ and K⁺ are mainly through electroneutral cation exchanges (Na⁺/K⁺ and Na⁺/H⁺) and the magnitude of the potential is limited by organic anion leaks. Such a mechanism may operate in other biological membranes also.     

Electrogenic action of calcium on crayfish gill

When intact crayfish are in an ion-poor medium (KCl, 0.1 mmol·l^-1+KHCO₃, 0.1 mmol·l^-1) there is a large potential difference (transepithelial potential difference),-20 to-40 mV (hemolymph negative), across the gills. Addition of Ca²⁺ to the medium is followed by a rapid change in transepithelial potential difference to near 0 mV. The transepithelial potential difference showed a non-linear dependence on [Ca²⁺]_out with a limiting value of+2 to+10 mV at>1 mmol·l^-1. The concentration generating a half-maximum transepithelial potential difference change (15–20 mV) was 0.1 to 0.2 mmol·l^-1. Three other alkaline earth ions were also electrogenic; Ba²⁺ caused slightly larger transepithelial potential difference changes, Sr²⁺ and Mg²⁺ were a little less effective. It has been suggested that the transepithelial potential difference in ion-poor medium (in fish) is due to the diffusive efflux of NaCl across the gills, with a Cl^-/Na⁺ permeability ratio of <1. Evidence is presented that this might be the case in crayfish. The electrogenic effect of Ca²⁺ might then be due to its effect on gill permeability to Na⁺ and Cl^- such that the permeability ratio increased and approached unity as the transepithelial potential difference approached 0. However, this was shown to be unlikely. An alternative explanation for Ca²⁺ dependence of the transepithelial potential difference is that active inward Ca²⁺ transport is electrogenic.Abbreviations FW fresh water - I _out ion efflux - IP ion-poor solution - P _c Cl-permeability - P _Na Na⁺ permeability - R electrical resistance - SW sea water - TEP transepithelial potential difference     

The production of 2,3-butanediol by fermentation of high test molasses

Summary Klebsiella oxytoca fermented 199 g·l^–1 high test or invert molasses using batch fermentation with substrate shift to produce 95.2–98.6 g 2,3-butanediol·l^–1 and 2,4–4.3 g acetoin·l^–1 with a diol yield of 96–100% of the theoretical value and a diol productivity of 1.0–1.1 g·l^–1·h^–1. Fermentation was performed numerous times with molasses in repeated batch culture with cell recovery. Such repeated batch fermentation, in addition to a high product yield, also showed a very high product concentration. For example, 118 g 2,3-butanediol·l^–1 and 2.3 g acetoin·l^–1 were produced from 280 g·l^–1 of high test molasses. The diol productivity in this fermentation amounted to 2.4 g·l^–1·h^–1 and can undoubtedly be further increased by increasing the cell concentration. Because the Klebsiella cultures ferment 2,3-butanediol at an extremely high rate once the sugar has been consumed, the culture was inhibited completely by the addition of 15 g ethanol·l^–1 and switching off aeration. Offprint requests to: A. S. Afschar     

Contribution of Na/Na and Cl/Cl exchanges to sodium and chloride fluxes in the crabGoniopsis cruentata

Summary Sodium or chloride efflux and transepithelial potentials (TEP) were measured in crabs exposed to seawater concentrations ranging from 150 to 25% SW. In crabs acclimated to 150% SW the Na⁺ efflux (3.8 mmol/h·100 g) was significantly higher than the Cl^– efflux (2.1 mmol/h·100 g), but both fluxes decreased to about 0.6 mmol/h·100 g in crabs from 50 or 25% SW. The TEP varied linearly from –1 mV (blood negative) in 150% SW, to –11 mV in 25% SW. In 150 and 100% SW the calculated components of the ion fluxes (i.e., diffusive, urinary, active uptake or extrusion) added up to less than one-half of the isotopically measured values. In 50 and 25% SW the measured effluxes were fully accounted for by their calculated components. In crabs transferred from 150% SW to low-Na 150% SW (=TRIS ASW), the Na⁺ efflux decreased abruptly, from 3.7 to 0.6 mmol/h; the Cl^– efflux decreased much less, from 1.9 to 1.5 mmol/h. A large fraction of the Na⁺ (or Cl^–) fluxes in crabs from concentrated SW meets the criteria for exchange diffusion, which decreases or disappears as the external concentration of each ion is lowered. This suggests that changes of the permeability to ions, in response to alterations of environmental salinity, may not constitute an important adaptive strategy in this species.Abbreviations SW seawater - TEP transepithelial potential - TRIS ASW artificial seawater 150%     

Different ratios of sucrose/raffinose-induced membrane depolarizations in the mesophyll of species with symplasmic (Catharanthus roseus, Ocimum basilicum) or apoplasmic (Impatiens walleriana, Vicia faba) minor-vein configurations

In mesophyll cells of species with a symplasmic (Ocimum basilicum, Catharanthus roseus, Magnolia denudata) or an apoplasmic (Vicia faba, Impatiens walleriana, Bellis perennis) minor-vein configuration, membrane depolarizations in response to 20 or 200 mol·m^–3 raffinose and sucrose were measured. Ageing period and resting potential marginally affected the degree of depolarization. The symplasmic species showed similar depolarization responses to 20 and 200 mol·m^–3 sucrose or raffinose. In the apoplasmic species, depolarization increased statistically significantly from 20 to 200 mol·m^–3 sucrose, whereas the depolarization response to raffinose was equal at both concentrations. In the apoplasmic species, moreover, the depolarization response to raffinose was significantly weaker than to sucrose at all concentrations. A major difference between symplasmic and apoplasmic species seems to lie in the scantiness of raffinose carriers in the mesophyll plasma membrane of species with the apoplasmic mode of phloem loading.Abbreviations 20R(200R) 20(200) mol·m^–3 raffinose - 20S(200S) 20(200) mol·m^–3 sucrose     

Studies on the variables and kinetics of SCP production from nopal fruit juice

Summary Submerged batch cultivation under controlled environmental conditions of pH 3.8, temperature 30°C, and K_La200 h^–1 (above 180 mMO₂ l ^–1 h^–1 oxygen supply rate) produced a maximum (12.0 g·l ^–1) SCP (Candida utilis) yield on the deseeded nopal fruit juice medium containing C/N ratio of 7.0 (initial sugar concentration 25 g·l ^–1) with a yield coefficient of 0.52 g cells/g sugar. In continuous cultivation, 19.9 g·l ^–1 cell mass could be obtained at a dilution rate (D) of 0.36 h^–1 under identical environmental conditions, showing a productivity of 7.2 g·l ^–1·h^–1. This corresponded to a gain of 9.0 in productivity in continuous culture over batch culture. Starting with steady state values of state variables, cell mass (C_X–19.9 g·l ^–1), limiting nutrient concentration (C_ln–2.5 g·l ^–1) and sugar concentration (C_S–1.5 g·l ^–1) at control variable conditions of pH 3.8, 30°C, and K_La 200 h^–1 keeping D=0.36 h^–1 as reference, transient response studies by step changes of these control variables also showed that this pH, temperature and K_La conditions are most suitable for SCP cultivation on nopal fruit juice. Kinetic equations obtained from experimental data were analysed and kinetic parameters determined graphically. Results of SCP production from nopal fruit juice are described.Nomenclature C_ln concentration of ammonium sulfate (g·l ^–1) - C_S concentration of total sugar (g·l ^–1) - C_X cell concentration (g·l ^–1) - D dilution rate (h^–1) - K_ln Monod's constant (g·l ^–1) - m maintenance coefficient (g ammonium sulfate cell^–1 h^–1) - m_(S) maintenance coefficient (g sugar g cell^–1 h^–1) - t time, h - Y yield coefficient (g cells/g ammonium sulfate) - Y_m maximum of Y - Y_S yield coefficient based on sugar consumed (g cells · g sugar^–1) - Y_S(m) maximum value of Y_S - ^µm maximum specific growth rate constant (h^–1)     

Photosynthetic production of hydrogen peroxide by Ulva rigida C. Ag. (Chlorophyta)

Production of hydrogen peroxide has been found in Ulva rigida (Chlorophyta). The formation of H₂O₂ was light dependent with a production of 1.2 mol·g FW^–1·h^–1 in sea water (pH 8.2) at an irradiance of 700 mol photons m^–2·s^–1. The excretion was also pH dependent: in pH 6.5 the production was not detectable (< 5 nmol·g FW^–1·h^–1) but at pH 9.0 the production was 5.0 mol·g FW^–1·h^–1. The production of H₂O₂ was totally inhibited by 3-(3,4-dichlorophenyl)-1,1 dimethylurea (DCMU). The ability of U. rigida growing in tanks (7501) under a natural light regime to excrete H₂O₂ was checked and found to be seven times higher at 08.00 hours than other times of the day. The H₂O₂ concentration in the cultivation tank (density: 2 g FW·l^–1) reached the highest value (3 M) at 11.00 hours. Photosynthesis was not influenced by H₂O₂ formation. The H₂O₂ is suggested to come from the Mehler reaction (pseudocyclic photophosphorylation). With an oxygen evolution of 120 mmol·g FW^–1·h^–1 at pH 8.2 and 90 mmol·g FW^–1·h^–1 at pH 9.0, 0.5% and 2.7% of the electrons were used for extracellular H₂O₂ production. The H₂O₂ production is sufficiently high to be of physiological and ecological significance, and is suggested to be a part of the defence against epi and endophytes.Abbreviations ACL artificial, continuous light - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - GNL greenhouse - LDC Luminol-dependent chemiluminescence - SOD Superoxide dismutase This investigation was supported by SAREC (Swedish Agency for Research Cooperation with Developing Countries), Hierta-Retzius Foundation, Marianne and Marcus Wallenberg Foundation, the Swedish Environmental Protection Board, and CICYT Spain.     

Direct alcoholic fermentation of starchy biomass using amylolytic yeast strains in batch and immobilized cell systems

Summary Direct alcoholic fermentation of dextrin or soluble starch with selected amylolytic yeasts was studied in both batch and immobilized cell systems. In batch fermentations, Saccharomyces diastaticus was capable of fermenting high dextrin concentrations much more efficiently than Schwanniomyces castellii. From 200 g·l^–1 of dextrin S. diastaticus produced 77 g·l^–1 of ethanol (75% conversion efficiency). The conversion efficiency decreased to 59% but a higher final ethanol concentration of 120 g·l^–1 was obtained with a medium containing 400 g·l^–1 of dextrin. With a mixed culture of S. diastaticus and Schw. castellii 136 g·l^–1 of ethanol was produced from 400 g·l^–1 of dextrin (67% conversion efficiency). S. diastaticus cells attached well to polyurethane foam cubes and a S. diastaticus immobilized cell reactor produced 69 g·l^–1 of ethanol from 200 g·l^–1 of dextrin, corresponding to an ethanol productivity of 7.6g·l^–1·h^–1. The effluent from a two-stage immobilized cell reactor with S. diastaticus and Endomycopsis fibuligera contained 70 g·l^–1 and 80 g·l^–1 of ethanol using initial dextrin concentrations of 200 and 250 g·l^–1 respectively. The corresponding values for ethanol productivity were 12.7 and 9.6 g·l^–1·h^–1. The productivity of the immobilized cell systems was higher than for the batch systems, but much lower than for glucose fermentation.     

Mucosal acidification and an acid microclimate in the hen colon in vitro

Experiments were performed on isolated, stripped colonic epithelia of low-salt-adapted hens (Gallus domesticus) in order to characterize acid secretion by this tissue. With symmetric, weak buffer solutions, colonic epithelia acidified both mucosal and serosal sides. Titration measurements of the mucosal acidification rate (pH-stat technique) averaged 1.63±0.25 Eq·cm^-2·h^-1. Mucosal acidification was also evident in colons from high-salt-adapted birds and in low-salt-adapted coprodeum, but was completely abolished in the high-salt coprodeum. Mucosal acidification by low-salt-adapted colonic epithelium was unaffected by sodium replacement, mucosal amiloride (10^-3 mol·l^-1), and serosal ouabain (5x10^-4 mol·l^-1), although all three treatments significantly reduced or reversed the short-circuit current. Acetazolamide (10^-3 mol·l^-1, serosal) reduced mucosal acidification by 15% and simultaneously increased short-circuit current by a similar amount. Colonic epithelia incubated in glucose-free solutions had significantly lower acidification rates (0.59±0.13 Eq·cm^-2·h^-1, P<0.002 versus controls) and addition of glucose (15 mmol·l^-1), but not galactose, partially restored acidification to control levels. Anoxia (N₂ gassing) completely inhibited short-circuit current, but reduced acidification by only 30%. A surface microclimate pH, nearly 2 pH units more acidic than the bath pH of 7.1–7.4 was measured in low-salt-adapted colon and coprodeum. The acid microclimate of both tissues was partially attenuated by adaptation to a high-salt diet. Colonic microclimate pH was dependent on the presence of glucose and sensitive to the bath pH. Histochemical staining for carbonic anhydrase localized this enzyme to cytoplasm and lateral margins of one subfraction of colonic cells, and to cytoplasm in a second subpopulation Intense staining was also evident in subepithelial capillaries. These results suggest that a large part of mucosal acidification and maintenance of the acid microclimate in hen colon may be dependent on glycolysis and metabolic acid production, although a smaller, electrogenic and acetazolamidesensitive component also appears to exist. This latter component may become more prominent under conditions of cellular acidification.Abbreviations CA carbonic anhydrase - I _SC short circuit current - NFM N-ethylmaleimide - PD transepithelial potential - SCFA short chain fatty acids     

Light response of D1 turnover and photosystem II efficiency in the seagrassZostera capricorni

Biochemical and biophysical parameters, including D1-protein turnover, chlorophyll fluorescence, oxygen evolution activity and zeaxanthin formation were measured in the marine seagrassZostera capricorni (Aschers) in response to limiting (100 mol·m^–2·^–1), saturating (350 mol·m^–2·s^–1) or photoinhibitory (1100 mol·m^–2·s^–1) irradiances. Synthesis of D1 was maximal at 350 mol·m^–2·s^–1 which was also the irradiance at which the rate of photosynthetic O₂ evolution was maximal. Degradation of D1 was saturated at 350 mol·m^–2·s^–1. The rate of D1 synthesis at 1100 mol·m^–2·s^–1 was very similar to that at 350 mol·m^–2·s^–1 for the first 90 min but then declined. At limiting or saturating irradiance little change was observed in the ratio of variable to maximal fluorescence (Fv/Fm) measured after dark adaptation of the leaves, while significant photoinhibition occurred at 1100 mol·m^–2·s^–1. The proportion of zeaxanthin in the total xanthophyll pool increased with increasing irradiance, indicative of the presence of a photoprotective xanthophyll cycle in this seagrass. These results are consistent with a high level of regulatory D1 turnover inZostera under non-photoinhibitory irradiance conditions, as has been found previously for terrestrial plants.We would like to thank Professor Peter Böger (Department of Plant Biochemistry, University of Konstanz, Germany) for the kind gift of D1 antibodies. This work was partly supported by a University of Queensland Enabling Grant to CC.     

Pharmacology of the neuronal nicotinic acetylcholine receptor of cultured Kenyon cells of the honeybee, <Emphasis Type="Italic">Apis mellifera</Emphasis>

We investigated the pharmacology of the nicotinic acetylcholine receptor of honeybee Kenyon cells, a subset of olfactory interneurons, which are crucial for olfactory learning and memory. Whole-cell currents were recorded using patch-clamp techniques. Pressure application of agonists induced inward currents in cultured Kenyon cells at holding potentials of –110 mV. Acetylcholine or carbamylcholine were full agonists, nicotine, epibatidine and cytisine were only partial agonists. Coapplications of these partial agonists with acetylcholine reduced the current amplitude. The most efficient antagonists were dihydroxy--erythroidine (EC₅₀=0.5 pmol·l^–1) and methyllycaconitine (EC₅₀=24 pmol·l^–1). The open channel blocker mecamylamine, d-tubocurarine and hexamethonium were rather weak blockers of the honeybee nicotinic response. Bath applications of the muscarinic antagonist atropine inhibited nicotinic currents dependent on concentration (EC₅₀=24.3 mol·l^–1). Muscarine, pilocarpine or oxotremorine (1 mmol·l^–1) did not induce any measurable currents. The non-cholinergic drugs strychnine, bicuculline and picrotoxin partially and reversibly blocked the acetylcholine-induced currents. Our results indicate the expression of only one nicotinic acetylcholine receptor subtype in cultured Kenyon cells. Muscarinic as well as non-cholinergic antagonists also inhibit the receptor function, distinguishing the honeybee nicotinic receptor from the typical nicotinic receptor of vertebrates and from many described insects receptors.