Control of acid-base status in active and dormant land snails,Otala lactea (Pulmonata,Helicidae)

Summary Control of extracellular acid-base status was examined during activity and dormancy inOtala lactea (Pulmonata, Helicidae). Active snails showed little variation in hemolymph pH and at constant temperature. With increase of temperature, hemolymph increased from about 6 Torr at 5°C to 13 Torr at 24°C and pH decreased by about 0.017 pH units/°C, a pattern consistent with alphastat regulation of pH via ventilatory control of .During dormancy, mean hemolymph increased to about 50 Torr. Venous pH declined by about 0.4 units due to hypercapnia and fluctuated more widely than in active snails due to variability of . Hemolymph pH declined further in prolonged dormancy due to progressive metabolic acidosis; after one year of dormancy the mean hemolymph pH was about 0.8 units lower than that of active snails at similar temperature.Active snails exposed experimentally to high showed a large increase in hemolymph [HCO ₃ ^– ]. However, [HCO ₃ ^– ] declined by up to 50% during dormancy, despite the naturally occurring hypercapnia. Hemolymph osmolality and the concentrations of solutes other than [HCO ₃ ^– ] increased with increasing duration of dormancy. Concentrations of magnesium and calcium increased about 2.5 times more rapidly than those of sodium and chloride, indicating that acidosis is partially offset by the dissolution of carbonates from the shell or tissues.     

Extracellular and intracellular acid-base status following strenuous activity in the sea raven (Hemitripterus americanus)

Summary Exhausting activity in the sea raven resulted in a pronounced extracellular acidosis, which consisted of a large, short-lived respiratory component and a small, longer-lived metabolic component. Thi disturbance had been corrected by 12 h. White muscle experienced a pronounced intracellular acidosis of chiefly metabolic origin, with pH_i dropping from a resting value of 7.51 to a low of 7.10 immediately post-activity. The recovery of pH_i was associated with a reduction in muscle lactate. Despite the large increase in , cardiac muscle pH_i remained constant postactivity, actually showing an alkalosis at 30 min into recovery. Maintenance of cardiac muscle pH_i was achieved by an accumulation of HCO ₃ ^– intracellularly.     

Activity and oxygen consumption during hypoxic exposure in high altitude and lowland sceloporine lizards

Summary Resting rates of O₂ consumption against , exercise endurance times and during recovery from vigorous exercise were measured inSceloporus occidentalis captured near sea level and inS. graciosus captured above 2850 m. Oxygen consumption against was also measured inS. occidentalis captured above 2850 m. When was recorded continuously, as ambient was slowly reduced from 155 Torr, it became directly dependent upon ambient between 110 and 120 Torr. The critical for the high altitude lizards was lower than that for the lowland lizards, which enabled the former to maintain relatively higher 's when ambient was reduced below 120 Torr. The high altitude lizards also had significantly greater endurance when stimulated to exercise at 1600 m ( 130 Torr). Both the higher under hypoxia and the greater endurance roughly parallel a significantly greater maximum in the high altitude lizards. At a simulated altitude of 3600 m ( 100 Torr), maximum and rate of recovery of the O₂ debt calculated from post active were significantly reduced in the lowland but not the high altitude lizards. The effects of simulated altitude conditions on the lowland but not the mountaine animals indicate adaptations to altitude in these sceloporine lizards. We did not find any consistent relationship between organ/body weight ratios or hematocrit and our measures of endurance or the altitude at which the lizards were captured.     

Reversed bohr and root shifts in hemocyanin of the marine prosobranch,Buccinum undatum: Adaptations to a periodically hypoxic habitat

Summary Oxygen binding properties of the hemocyanin-containing blood ofBuccinum undatum were examined in vitro and in vivo under normoxic ( 150 mmHg) and hypoxic ( 50 mmHg) conditions at 10°C. Blood pH and showed a decrease in vivo under hypoxic conditions. Oxygen uptake at high water , was about 18 ml O₂/kg·h (wet weight) and the critical oxygen tension between 25 and 50 mm Hg. In vitro the O₂ binding to hemocyanin showedn-values independent of pH, while both O₂ affinity and oxygen carrying capacity were strongly pH dependent. Oxygen affinity increased below pH=8.1 and thus showed a pronounced reversed Bohr shift in the physiological pH range (7.5<pH<8.1). The oxygen carrying capacity similarly increased markedly with falling pH in the physiological pH range (reversed Root shift). Astrup titration curves showed a metabolic and respiratory acidosis under hypoxic conditions ( 50 mm Hg). The role of hemocyanin in the transport of oxygen in relation to ambient O₂ availability is discussed.     

The electrochemical H+ gradient in the yeastRhodotorula glutinis

The electrochemical gradient of protons, , was estimated in the obligatory aerobic yeastRhodotorula glutinis in the pH₀ range from 3 to 8.5. The membrane potential, , was measured by steady-state distribution of the hydrophobic ions, tetraphenylphosphonium (TPP⁺) for negative above pH₀ 4.5, and thiocyanate (SCN^–) for positive below pH₀ 4.5. The chemical gradient of H⁺ was determined by measuring the chemical shift of intracellular P_i by³¹P-NMR at given pH₀ values. The values of pH_i increased almost linearly from 7.3 at pH₀ 3 to 7.8 at pH₀ 8.5. In the physiological pH₀ range from 3.5 to 6, was fairly constant at values between 17–18 KJ mol^–1, gradually decreasing at pH₀ above 6. In deenergized cells, the intracellular pH_i decreased to values as low as 6, regardless of whether the cell suspension was buffered at pH₀ 4.5 or 7.5. There was no membrane potential detectable in deenergized cells.     

Measurement of internal pH in the coccolithophoreEmiliania huxleyi using 2′,7′-bis-(2-carboxyethyl)-5(and-6)carboxyfluorescein acetoxymethylester and digital imaging microscopy

Internal pH (pH_i) was determined inEmiliania huxleyi (Lohmann) using the probe 2,7-bis-(2-carboxyethyl)-5(and-6)carboxyfluoresceinacetoxymethylester (BCEF-AM) and digital imaging microscopy. The probe BCECF-AM was taken up and hydrolysed to the free acid by the cells. A linear relationship was established between pH_i and the 490/450 fluorescence ratio of BCECF-AM over the pH range 6.0 to 8.0 using the ionophore nigericin. Two distinct pH domains were identified within the cell, the cytoplasmic domain (approx. pH 7.0) and the chloroplast domain (approx. pH 8.0). The average pH_i was 7.29 (±0.11) for cells in the presence of 2 mM HCO ₃ ^– . In the absence of HCO ₃ ^– the pH_i was decreased by 0.8 pH unit. The importance of these changes in pH_i is considered in relation to inorganic-carbon uptake.Abbreviations AM acetoxymethylester - BCECF 2,7-bis-(2-carboxyethyl)-5(and-6)carboxyfluorescein - Hepes 4-(2-hydroxyethyl)-1-piperazine ethanesulfonic acid - pH_i intracellular pH     

Intracellular pH during daily torpor inPeromyscus maniculatus

Summary Intracellular and extracellular acid-base parameters during normothermy and daily torpor were examined in deer mice (Peromyscus maniculatus). [¹⁴C]Dimethyloxazolidinedione and [³]inulin were used to assess intracellular pH in liver, heart, skeletal muscle, and brain. Buffering capacities were determined using tissue homogenates. A significant increase in plasma and during daily torpor indicates a respiratory acidosis. All tissues experienced a reduction in the calculated dissociation ratio of histidine imidazole groups (_imid) during daily torpor (16.5% for brain, approximately 10% for other tissues). Based on comparisons with physicochemical tissue buffering capacities, metabolic compensation of the respiratory acidosis occurred in liver, heart, and plasma, while brain was more acidotic than predicted. The more extensive change in brain _imid might influence a regulated decrease in body temperature. Comparison of acid-base parameters during daily torpor and hibernation suggests that the magnitude of acid-base modifications in mammals may be associated with the level of dormancy.Abbreviations _imid dissociation ratio of histidine imidazole groups - physicochemical non-bicarbonate buffer value - ' apparent (in vivo) buffer value - bicarbonate bicarbonate values corrected to a temperature of 25 °C - pH pH values corrected to a temperature of 25 °C - pH _i intracellular pH - pK _imid pK of histidine imidazole groups - T _b body temperature     

Water pH and aluminum chemistry in the gill micro-environment of rainbow trout during acid and aluminum exposures

Summary Rainbow trout (Salmo gairdneri) were exposed to acidic soft water (pH_in4.2–6.3) in the presence (93 g·l^–1) or absence of Al. Fish were fitted with latex masks and opercular catheters to measure ventilation , pH changes at the gills, O₂ consumption , ammonia excretion , and Al extraction. During 2–3-h exposures, was generally higher in Al-exposed fish over the pH_in range 4.7–6.3. Alkalinization of expired water was about 0.3 pH units less in Al-exposed fish than in acid-only exposed fish at pH_in 4.5–5.2, an effect attributable to both increased and to buffering by Al. During 44-h exposures to pH_in 5.2 and 4.8 plus Al, increased greatly and expired water pH (pH_ex) decreased with time. There was a small increase in over 44 h at pH 4.4 plus Al, and no changes in pH_ex. In contrast, during 44-h exposures to pH 5.2, 4.8, and 4.4 in the absence of Al, such changes were much smaller or absent. During both short- and longerterm exposures, measured Al accumulation on the gills was only 5–18% of that calculated from cumulative Al extraction from the water, suggesting considerable sloughing of Al. In free-swimming trout, gill Al accumulation was greatest during exposure (2h) to Al at pH 5.2, lower at pH 4.8, and least at pH 4.4 and 4.0. Our results suggest that Al deposition occurs at the gills, causing respiratory and ionoregulatory toxicity, because the pH in the branchial micro-environment is raised above that in the acidic inspired soft water. Higher pH at fish gills may result in Al precipitation due to loss of solubility, or Al accumulation because of shifts in Al species to Al-hydroxide forms which more readily adsorb to the gills.Abbreviations pH _ex expired pH - pH _in inspired pH     

Carbonic anhydrase activity in the blood and the gills of rainbow trout during long-term hypercapnia in hard,bicarbonate-rich freshwater

Summary Carbonic anhydrase (CA) activities in gills and venous blood, acid-base balance, and haematological variables were studied during environmental hypercapnia in rainbow trout (Salmo gairdneri). Batches of 8–10 fish were exposed to about 3 or 13 mmHg in flow-through tests of various duration from 4 h to 80 days.After initial acidosis, blood pH rose above pre-experimental values. At 3 mmHg it became normal again within 21 days, while at 13 mmHg the overshoot lasted for 80 days. In fish acclimated for 3 weeks or more to 13 mmHg , blood HCO ₃ ^– increased four to five times while plasma Cl^– levels were lower and K⁺ higher. Na⁺ levels did not show any consistent trend associated with exposure to hypercapnia. After an initial acidaemia, Hct, Hb, and RBC remained relatively constant.Patterns of change in CA activity differed between gills and erythrocytes. Initially, blood CA decreased at both levels. It then began rising after about 3 weeks and tended to reach pre-experimental values by 80 day's hypercapnia. At 13 mmHg , gill CA increased to twice the pre-experimental level. Compared with blood CA, gill CA appeared to be more specifically involved in fish acclimation to hypercapnia, which demands an increase in blood bicarbonate to provide a sufficient buffering capacity. Increased CA indicates that the gill enzyme may play a more important role than blood CA in acid-base regulation in fish during hypercapnia.Abbreviations CA carbonic anhydrase - Hb haemoglobin - Hct haematocrit value - RBC red blood cells     

Effects of nitrite exposure on blood respiratory properties,acid-base and electrolyte regulation in the carp (Cyprinus carpio)

Summary Adult carp were subjected to 1 mM environmental nitrite for 48 h and nitrite uptake and changes in blood respiratory properties, extracellular electrolyte composition and acid-base status were examined.A constant influx of nitrite caused an accumulation of NO ₂ ^– in plasma to 5.4 mM in 48 h. The fraction of methaemoglobin rose with plasma [NO ₂ ^– ] to 83%, and the arterial oxygen content decreased to extremely low values. Arterial increased as a compensation to this O₂-shortage, whereas the O₂ saturation of the functional (unoxidized) haemoglobin decreased, revealing a reduction in its O₂ affinity.Blood haematocrit decreased as a result of red cell shrinkage, which caused very high red cell haemoglobin (Hb) concentrations. The erythrocytic nucleoside triphosphate (NTP) concentration showed a parallel increase whereby NTP/Hb, as well as the relative contributions of ATP and GTP to NTP, remained unchanged.Plasma [Cl^–] declined by 15 mM in 48 h, off-setting the plasma [NO ₂ ^– ] increase, minor changes in plasma [HCO ₃ ^– ] and a considerable increase in plasma [lactate]. Arterial pH and [HCO ₃ ^– ] rose slightly during the first 24 h of nitrite exposure, but returned to control values at 48 h. The rise in plasma [lactate] was not reflected in an extracellular metabolic acidosis. Plasma [K⁺] increased by 94% in 48 h, revealing an uncompensated extracellular hyperkalemia, whereas plasma [Na⁺] decreased, and plasma [Ca⁺⁺] was unchanged. Plasma osmolality remained essentially constant.The NO ₂ ^– accumulation could be reversed by transfer of the fish to NO ₂ ^– -free water, but nitrite off-loading was slower than the preceding NO ₂ ^– loading.Abbreviations Hb hemoglobin - NTP nucleoside triphosphate - Hct hematocrit - fractional saturation of Hb with oxygen     

The frequency and origin of the sickle cell mutation in the district of Coruche/Portugal

Summary The frequency of the ^s mutation in the district of Coruche/Portugal is estimated to be about 4% from analysis of a group of 181 school children and their teachers in an area in which malaria has been endemic until recently. Several white Portuguese patients with sickle cell disease (six homozygous SS and one S^° thalassaemia) were found in a group of 309 further patients who were known and followed up by local medical practitioners. These patients had clinical and haematological features similar to patients of African origin, although their growth and sexual development appeared to be normal. The analysis of an array of polymorphic restriction sites within the ^s globin gene cluster (^s haplotype) showed patterns that are known to occur in Africa. The frequencies of the three main African ^s haplotypes termed Senegal, Bantu, and Benin reflect the extent of Portuguese naval explorations. It is concluded that the sickle cell gene in Portugal has probably been imported from Africa and has been amplified in comparison with other genes characteristic for African races because of the selective advantage of AS heterozygotes in an area endemic for malaria.     

Characterization of a chloride channel reconstituted from cardiac sarcoplasmic reticulum

We have characterized a voltage-sensitive chloride channel from cardiac sarcoplasmic reticulum (SR) following reconstitution of porcine heart SR into planar lipid bilayers. In 250 mm KCl, the channel had a main conductance level of 130 pS and exhibited two substrates of 61 and 154 pS. The channel was very selective for Cl^– over K⁺ or Na⁺ ( and ). It was permeable to several anions and displayed the following sequence of anion permeability: SCN^– > I^– > NO ₃ ^– Br^– > Cl^– > f^– > HCOO^–. Single-channel conductance saturated with increasing Cl^– concentrations (K _m= 900 mm and _max = 488 pS). Channel activity was voltage dependent, with an open probability ranging from 1.0 around 0 mV to 0.5 at +80 mV. From –20 to +80 mV, channel gating was time-independent. However, at voltages below –40 mV the channel entered a long-lasting closed state. Mean open times varied with voltage, from 340 msec at –20 mV to 6 msec at +80 mV, whereas closed times were unaffected. The channel was not Ca²⁺-dependent. Channel activity was blocked by disulfonic stilbenes, arylaminobenzoates, zinc, and cadmium. Single-channel conductance was sensitive to trans pH, ranging from 190 pS at pH 5.5 to 60 pS at pH 9.0. These characteristics are different from those previously described for Cl^– channels from skeletal or cardiac muscle SR.We thank Dr. Barry Pallotta for help with open and closed intervals analysis and Dr. Gerhard Meissner for his suggestions for the preparation of cardiac sarcoplasmic reticulum membranes. This work was supported by a grant from the National Institutes of Health to R.L.R. and a Student Grant-in-Aid from the American Heart Association, North Carolina affiliate to C.T. R.L.R. is an Established Investigator of the American Heart Association.     

Effects of freshwater to seawater transfer on osmoregulation,acid-base balance and respiration in river migrating whitefish (Coregonus lavaretus)

Osmoregulation, acid-base balance and respiratory parameters were investigated in whitefish following transfer from freshwater to salt water. Whitefish acclimated successfully to 25 ppt brackish water but died after direct transfer to 32 ppt sea water. Transfer to brackish water induced rapid (<6 h) and permanent increases in plasma [Na⁺], [Cl^–], total [Ca] and [Mg]. The extracellular hyperosmolality effected a transient (<3 days) muscle tissue dehydration and red blood cell shrinkage. Exposure to brackish water decreased both the arterial O₂ tension and whole body O₂ uptake. The extracellular acid-base status changed from an initial respiratory acidosis at 1 h towards a pronounced metabolic acidosis at 48 h of brackish water exposure. Red cell pH_i decreased in parallel with extracellular pH_e, but the in vivo pH_i/pH_e was only 0.26, suggesting some selective protection of red cell pH_i. Plasma cortisol concentration and gill Na⁺, K⁺-ATPase activity increased after exposure to high ambient salinity, reflecting the induction of hypo-osmoregulatory mechanisms. The physiological changes in whitefish are discussed in relation to salinity-induced effects in other salmonid fishes.Abbreviations CO₂ solubility in plasma - water O₂ capacitance coefficient - BW brackish water - C _T total CO₂ content in plasma - FW fresh water - Hb hemoglobin - Hct hematocrit - M _b body mass of fish - MCHC mean cellular hemoglobin concentration - PCO₂ carbon dioxide tension - pH _e extracellular pH - pH _i intracellular pH - PO_{2 in} oxygen tension in water flowing in - PO_{2 out} oxygen tension in water flowing out - ppt parts per thousand - RBC red blood cell(s) - SW sea water - V _m water flows through chamber - OV ₂ ml O₂ consumed per kg per hour     

pH Regulation in tissue-cultured bovine lens epithelial cells

Summary The intracellular pH (pH _i ) of tissue-cultured bovine lens epithelial cells was measured in small groups of 6 to 10 cells using the trapped fluorescent dye 2,7-bis-(2-,carboxyethyl)-5 (and 6)carboxyfluorescein (BCECF). When perifused at 35°C with artificial aqueous humour solution (AAH) containing 16 mM HCO ₃ ^- and 5% CO₂, pH 7.25, pH _i was 7.19±0.02 (sem, n = 95). On removing HCO ₃ ^- and CO₂ there was an initial transient alkalinization followed by a fall in pH to a steady value of 6.97±0.03 (sem, n = 54). Addition of 0.25 mM 4,4-diisothiocyanatostilbene2, 2-disulfonic acid (DIDS) to AAH containing HCO ₃ ^- and CO₂ led to a rapid and pronounced fall in pH. Exposure to Na⁺-free AAH again led to a marked fall in pH _i , but in this case the addition of DIDS did not produce a further fall. Substitution of the impermeant anion gluconate for Cl^– in the presence of HCO ₃ ^- led to a rise in pH _i , while substitution in the absence of HCO ₃ ^- led to a fall in pH _i . The above data indicate a significant role for a sodium-dependent Cl^–-HCO ₃ ^- exchange mechanism in the regulation of pH _i . Addition of 1 mM amiloride to control AAH in both the presence and absence of HCO ₃ ^- led to a marked fall in pH _i , indicating that a Na⁺/H⁺ exchange mechanism also has a significant role in the regulation of pH _i . There is evidence for a lactic acid transport mechanism in bovine lens cells, as addition of lactate to the external medium produced a rapid fall in pH _i . Larger changes in pH _i were observed in control compared to HCO ₃ ^- -free AAH and in the latter case a pronounced alkalinizing overshoot was obtained on removing external lactate. Tissue-cultured bovine lens cells thus possess at least three membrane transport mechanisms that are involved in pH regulation. The buffering capacity of the lens cells was measured by perturbing pH _i with either NH ₄ ⁺ or procaine. The values obtained were similar in both cases and the intrinsic buffering capacity measured in the absence of external HCO ₃ ^- was 5 mm/pH unit (procaine). However, in the presence of HCO ₃ ^- and CO₂ the buffer capacity increases approximately fourfold, indicating that HCO ₃ ^- is the principal intracellular buffer.We acknowledge financial support from the Wellcome Trust and the Humane Research Trust for this project. M.R. Williams was in receipt of a Science & Engineering Research Council studentship.     

Growth and product formation of actinomycetes cultivated at increased total pressure and oxygen partial pressure

Summary Influence of pressure (P) and oxygen partial pressure ( ) on cultivation of various Streptomyces spp. and Micromonospora purpurea was examined in pressurized air-lift and stirred tank fermenters. The maximum was 2100 mbar. Growth and product formation of all cultures tested were markedly influenced by higher than 1000 mbar. There is evidence that wild strains are more oxygen tolerant than production strains. At a certain the metabolic activities of all cultures were inhibited. However, results obtained with S. aureofaciens and S. rimosus indicated an increase in specific product formation rate at elevated pressure. With increase in oxygen tension incorporation of oxygen into tetracycline molecules was enhanced. Since elevated oxygen tension can either show inhibiting effects or may be used for regulation of product formation and selectivity, the influence of should be determined in an appropriate experimental set-up for each process.Offprint requests to: U. Onken     

Respiratory adaptations in carp blood influences of hypoxia, red cell organic phosphates, divalent cations and CO2 on hemoglobin-oxygen affinity

Summary This study concerns the adaptation of oxygen transporting function of carp blood to environment hypoxia, tracing the roles played by erythrocytic cofactors, inorganic cations, carbon dioxide and hemoglobin multiplicity.Carp acclimated to hypoxia ( 30 mmHg) display striking increases in blood oxygen affinity compared to normoxic ( =120–150 mm) specimens (P ₅₀'s are 3.0 and 7.0 mm, respectively, at pH 7.9 and 20°C). This correlates with a marked decrease in erythrocytic concentrations of NTP (nucleoside triphosphates) (Figs. 1, 2, Table 1), permitting investigation of the time-course of the response (Fig. 3). That GTP (guanosine triphosphate) plays a greater role than ATP in the allosteric regulation of blood oxygen affinity, follows from greater decreases in its concentration during hypoxia, and its greater effect on oxygen affinity of the hemoglobin (Figs. 1, 5). It is furthermore shown that divalent cations (which complex with NTP) inhibit the regulatory role of GTP on O₂ affinity to a lesser extent than that of ATP (Fig. 7). However, the divalent cation, Mg²⁺, occurs in similarly high concentrations in the erythrocytes of hypoxic and normoxic fish (Table 1). CO₂ specifically depresses the O₂ affinity of carp hemoglobin, but below pH 8.3, its effect is obliterated by ATP and GTP suggesting that the chains are the main sites for CO ₂ ^– binding. Four carp hemoglobin components are isolated and their oxygen-binding properties compared with those of the cofactor-free hemolysate (Figs. 4, 8, 9). The results are discussed comparatively with special reference to hemoglobin function in fish and mammals.     

An investigation of the effects of external acidification on sodium transport,internal pH and membrane potential in barnacle muscle fibers

Summary Radiosodium efflux from barnacle muscle fibers is a function of pH _e , the threshold pH _e for stimulation of Na efflux into HCO ₃ ^– -artificial sea water (ASW) being 6.8 and the fixed thresholdpCO₂ (in an open CO₂ system) being approximately 30 mm Hg. Acidification of ASW containing non-HCO ₃ ^– buffer is without effect on the Na efflux. The Na efflux following stimulation by reducing the pH of 10mM HCO ₃ ^– -ASW from 7.8 to 6.3 is reduced by 17.3% as the result of microinjecting 100mM EGTA, and increased by 32.6% as the result of microinjecting 0.5M ATP. The Na efflux into K-free HCO ₃ ^– -ASW is markedly stimulated by external acidification. Ouabain-poisoned fibers are more responsive to a low pH _e than unpoisoned fibers. Applying the 2-¹⁴C-DMO technique, it is found that fibers bathed in 10mM HCO ₃ ^– -ASW at pH 7.8 have an internal pH of 7.09±0.106 (mean±SD), whereas fibers bathed in 25mM TRIS-ASW at pH 7.8 have a pH _i of 7.28±0.112. The relationship between pH _i and pH _e as external pH is varied by adding H⁺ is linear. Measurements of the resting membrane potential indicate that external acidification in the presence of HCO ₃ ^– as buffer is accompanied by a fall inE _m , the threshold pH _e being 7.3 both at 24 and 0°C. This sensitivity amounts to 8.2 mV per pH unit (at 24°C) over a wide range of pH _e . Membrane resistance following external acidification remains unchanged. Microinjection of the protein inhibitor of Walsh before external acidification fails to stop depolarization from occurring. Cooling to 0°C also fails to abolish depolarization following acidification. Whereas external ouabain and ethacrynic acid reduceE _m in the absence or presence of acidification, DPH hyperpolarizes the membrane or arrests depolarization both at 24 and 0°C. This effect of DPH at 0°C is seen in the absence or presence of acidification. It is suggested that depolarization following acidification of a HCO ₃ ^– -containing medium is due to activation of a Cl^–-and/or HCO ₃ ^– -pump and that ouabain and ethacrynic acid reducesE _m by abolishing uncoupled Na transport.     

Differentiation between acetate and higher volatile acids in the modeling of the anaerobic biomethanation process

This paper presents a model for the single-stage completely-mixed anaerobic digestion of complex substrates containing no volatile acids. In the model, volatile acids produced by the acidogenic bacteria are no longer considered together. Acetate is assumed to be representative of the substrate and propionate and butyrate act only as inhibitors for the methanogenic bacteria.Nomenclature ···0 represents factors associated with the influent - ···1 represents factors associated with the acidogenic bacteria - ···2 represents factors associated with the methanogenic bacteria - Q hydraulic flow (1/d) - V reactor liquid volume (1) - T temperature of the mixed liquor (° C) - S microorganisms concentration (mg/1) - L volatile solids concentration (mg VS/1) - Lb biodegradable volatile solids concentration (mg VS/1) - VA2 acetate concentration (mg/1) - VA3 volatile acids with 3 to 5 carbon atoms concentration (mg/1) - methane rate production (1 CH₄/1_digester.d) - Km saturation coefficient (mg/l) - Ki inhibition coefficient (mg/l) - specific growth rate (1/d) - maximum specific growth rate (1/d) - b biological decay coefficient (1/d) - Arrhénius coefficient (–) - yield of acidogenic bacteria per mg of biodegradable matter consumed (mg S₁/mg L_b) | (mg S₂/mg VA2) - yield of methanogenic bacteria per mg of VA2 consumed - yield of methane production per mg of S₂ formed (1 CH₄/mg S₂) - proportion of VA2 produced per mg of S₁ biosynthetised - proportion of VA3 produced per mg of S₁ biosynthetised - Y_sp volume of CH₄ produced per g of volatile solids eliminated     

Effects of ambient and local cutaneous temperatures on hand blood flow

The hand blood flow ( ) was investigated in response to a wide range of general and local cutaneous thermal stimuli (0–36°C and 4–42°C respectively), the local stimulus consisting of a thermostatically controlled water bath for the right hand (T_w), and the general stimulus, the ambient room temperature (T_a). was measured at the right wrist by strain gauge plethysmography; it was seen to respond more significantly to variations in T_w than to those in T_a at cold to comfortable ambient temperatures (T_a<22°C). A paradoxical vasodilatation was observed at T_w=4°C (Lewis' hunting phenomenon). The graphs of versus T at average to high local cutaneous temperatures (T_w > 33°C) are remarkably similar, except for an upward shift at successively higher values of T_w. The slope (or vasomotor reactivity) is interpreted as being controlled by variations in T_a. The curves exhibited maximum values at T_a = 31°C. Their subsequent decrease could represent a thermoregulatory adaptation to environment-organism heat transfer, the relative vasoconstriction tending to reduce the transfer. Although the qualitative response was the same for both sexes, the absolute value of was generally greater in male than in female subjects.     

Oxygen controlled batch cultivations of Schizophyllum commune for enhanced production of branched β-1,3-glucans

Oxygen and shear stress are the key factors for enhanced glucan production with Schizophyllum commune. During batch cultivation control of or (specific oxygen uptake rate) was achieved by variation of the impeller speed. Biomass was modelled by using the carbon and oxygen balance derived from exhaust data. At mycel growth a of 0.042 h^–1 presents just the border before oxygen limitation arises and is simultaneously the optimum operation condition for maximum glucan formation. Related to an overall cultivation time of 72 h a maximum of both productivity (4.3 kg m^–3 d^–1) and yield (13 kg m^–3) were obtained.List of Symbols C kg m^–3 concentration - k _L a h ^–1 volume related oxygen transfer coefficient - K _s mol m^–3 substrate saturation constant - N rpm impeller speed - % oxygen partial pressure of the liquid phase - kg m^–3h^–1 oxygen uptake rate - h^–1 specific oxygen uptake rate, kg O₂ (kg biomass h)^–1 - t h time - yield coefficient (biomass formed/oxygen consumed) Greek Symbols h^–1 specific growth rate Indices O ₂ oxygen - X biomass - L liquid phase - * gas/liquid interface - S substrate (glucose) Dedicated to the 65th birthday of Professor Fritz Wagner.This work was kindly supported in parts by B. Braun Biotech International. The authors are grateful to Prof. Dr. Fritz Wagner for scientific support and appreciate the technical assistance of Detlev Rasch