Myeloelectric complex of the small intestine and variations in the intestinal motility in sheep]

The motor pattern of the small intestine of the sheep fed ad libitum is characterized by the regular occurrence of myoelectric complexes comprising a phase of regular and irregular spiking activities. Each complex is propagated along the ovine small intestine at a mean velocity of 17 cm/min and originated on the duodenal bulb at 70-100 mn intervals. Reduction and increase in duration of the phase of irregular spiking activity of the complex occurred during fasting and overfeeding respectively. Reduction in spiking activity is paralleled by an increased velocity of propagation whilst a lower migration and a reduced number of the complexes are characteristic of overfeeding. It is concluded that duration, number and velocity of propagation of the myoelectric complexes are adaptative factors in changes of the intestinal flow rate.     

The role of migrating myoelectric complexes in the regulation of digesta transport in the preruminant calf.

Four calves were equipped with an electromagnetic flow probe inside the transverse duodenum and with electrodes at intervals of 2 cm on either side of the probe. Amounts of 0.5, 2.0, 3.5, and 5.0 kg of whole milk were given according to a latin square design. Recordings of digesta flow and myoelectric activity were made during a 5.6-h period after feeding to quantify the influence of migrating myoelectric complexes on digesta flow through the transverse duodenum of preruminant calf under different levels of milk intake. Immediately after feeding, a phase of irregular spiking activity appeared; its length increasing linearly (p = 0.002) with the amount of milk fed. Increasing milk intake led to linear increases in duration (p = 0.001) and total electrical activity (p = 0.002) of the irregular activity phases, quadratic shortening of the quiescent phases (p = 0.021), and linear decrease (p = 0.006) in the numbers of migrating myoelectric complexes. Intermittent flows of digesta, each of them corresponding to a strong spike burst, appeared during irregular spiking activity phases. Augmentation of the milk ingested did not affect the volume of each gush of digesta but caused a cubic increase in the number of gushes (p = 0.023) and in the total volume of digesta (p = 0.009). These cubic effects implied that with increased intake of milk, the duodenum endeavoured to accelerate the flow of digesta in an attempt to return to an "empty state" in about the same time for all levels of milk consumed. This was achieved mainly through adjustments in the duration and activity of the irregular spiking activity phase.     

Hepatic glucose metabolism during intraduodenal glucose infusion: impact of infection

We previously reported that infection decreases hepatic glucose uptake when glucose is given as a constant peripheral glucose infusion (8 mg. kg(-1) x min(-1)). This impairment persisted despite greater hyperinsulinemia in the infected group. In a normal setting, hepatic glucose uptake can be further enhanced if glucose is given gastrointestinally. Thus the aim of this study was to determine whether hepatic glucose uptake is impaired during an infection when glucose is given gastrointestinally. Thirty-six hours before study, a sham (SH, n = 7) or Escherichia coli-containing (2 x 10(9) organisms/kg; INF; n = 7) fibrin clot was placed in the peritoneal cavity of chronically catheterized dogs. After the 36 h, a glucose bolus (150 mg/kg) followed by a continuous infusion (8 mg. kg(-1). min(-1)) of glucose was given intraduodenally to conscious dogs for 240 min. Tracer ([3-(3)H]glucose and [U-(14)C]glucose) and arterial-venous difference techniques were used to assess hepatic and intestinal glucose metabolism. Infection increased hepatic blood flow (35 +/- 5 vs. 47+/-3 ml x g(-1) x min(-1); SH vs. INF) and basal glucose rate of appearance (2.1+/-0.2 vs. 3.3+/-0.1 mg x kg(-1) x min(-1)). Arterial insulin concentrations increased similarly in SH and INF during the last hour of glucose infusion (38+/-8 vs. 46+/-20 microU/ml), and arterial glucagon concentrations fell (62+/-14 to 30+/-3 vs. 624+/-191 to 208+/-97 pg/ml). Net intestinal glucose absorption was decreased in INF, attenuating the increase in blood glucose caused by the glucose load. Despite this, net hepatic glucose uptake (1.6+/-0.8 vs. 2.4+/- 0.9 mg x kg(-1) x min(-1); SH vs. INF) and consequently tracer-determined glycogen synthesis (1.3+/-0.3 vs. 1.0+/-0.3 mg. kg(-1) x min(-1)) were similar between groups. In summary, infection impairs net glucose absorption, but not net hepatic glucose uptake or glycogen deposition, when glucose is given intraduodenally.     

Comparison of two different approaches in the detection of intermittent cardiorespiratory coordination during night sleep

Background

The objective was to evaluate and to compare two completely different detection algorithms of intermittent (short-term) cardiorespiratory coordination during night sleep. The first method is based on a combination of respiratory flow and electrocardiogram recordings and determines the relative phases of R waves between successive onsets of inspiration. Intermittent phase coordination is defined as phase recurrence with accuracy α over at least k heartbeats. The second, recently introduced method utilizes only binary coded variations of heart rate (acceleration = 1, deceleration = 0) and identifies binary pattern classes which can be assigned to respiratory sinus arrhythmia (RSA). It is hypothesized that RSA pattern class recurrence over at least k heartbeats is strongly related with the intermittent phase coordination defined above.

Results

Both methods were applied to night time recordings of 20 healthy subjects. In subjects <45 yrs and setting k = 3 and α = 0.03, the phase and RSA pattern recurrence were highly correlated. Furthermore, in most subjects the pattern predominance (PP) showed a pronounced oscillation which is most likely linked with the dynamics of sleep stages. However, the analysis of bivariate variation and the use of surrogate data suggest that short-term phase coordination mainly resulted from central adjustment of heart rate and respiratory rate rather than from real phase synchronization due to physiological interaction.

Conclusion

Binary pattern analysis provides essential information on short-term phase recurrence and reflects nighttime sleep architecture, but is only weakly linked with true phase synchronization which is rare in physiological processes of man.     

Effect of the level of the carbon source on the activity of some lytic enzymes released during autolysis of Aspergillus niger

Changes in the activity of -N-acetylglucosaminidase, chitinase, invertase, esterases, glucanases and phosphatases liberated into the culture fluid were followed during the autolytic phase of growth of Aspergillus niger on media with various initial levels of the carbon source. The general pattern was of an accumulation of these lytic enzymes in the culture fluid during autolysis, but some enzymes reached maximum activity and then declined. The initial level of the carbon source affected the enzyme pattern during autolysis. Maximum activity for the various enzymes was always observed either for the lowest initial level of carbon or the highest (3.5 mM glucose, 111 mM glucose). The highest specific activities were those for exopolygalacturonidase (500 mU/mg at 3.45 mM glucose), and for -amylase (about 500 mU/mg at 3.45 mM glucose). Cellulase, chitinase and esterase showed the weakest activity. Acid phosphatase was most active (about 200 mU/mg) at 3.45 mM initial glucose, whereas alkaline phosphatase was most active (45 mU/mg) at 111 mM glucose, both during the autolytic phase of growth.     

Negative occurrence between hippocampal rhythmic slow activity and epileptiform spikes: influence of the striatum

The effects of caudate and septal stimulation on hippocampal activity were studied. Sodium penicillin was intravenously injected in order to induce a steady rate of interictal epileptic activity. Penicillin injection caused significant reduction of the rate of occurrence and duration of hippocampal rhythmic slow activity (RSA). Spontaneous RSA as well as RSA-eliciting caudate and septal stimulation induced a marked inhibition on frequency of epileptiform complexes. Lesions of the medial septal nucleus made it impossible to record RSA or to observe any sort of influence on hippocampal epileptiform activity by caudate stimulation. This result suggests that the septum is important for RSA genesis in the striato-hippocampal pathway or in the reciprocal septo-hippocampal connections.     

Nippostrongylus brasiliensis: malabsorption in experimentally infected rats

Glucose absorption and net small intestinal water movement were examined in rats infected with Nippostrongylus brasiliensis at Days 4, 6, 9, 13, and 19 after inoculation. Rats were infected with 4 X 10(3) N. brasiliensis third stage larvae. The entire small intestine was divided into three segments and each segment perfused simultaneously in vivo with Krebs-Ringer phosphate buffer containing 80 mM glucose, 6 X 10(5) dpm/ml [3H]glucose, and 6.2 X 10(3) dpm/ml [14C]polyethylene glycol. Rats perfused on Days 6, 9, 13, and 19 after inoculation showed a significant (P less than 0.05) decrease in glucose absorption rates from all three segments of the small intestine when compared to uninfected controls. In the three segments of uninfected rat small intestine and those perfused on Days 4, 13, and 19 after inoculation, net absorption of water occurred. However, in the proximal and distal segments perfused on Day 6 and the proximal segment perfused on Day 9, net water movement into the lumen occurred. This is the first report of depressed glucose absorption along the entire length of the small intestine during nippostrongylosis and contradicts previous reports of unaltered net glucose absorption in response to this parasite.     

The Ability of 2-Deoxyglucose to Promote the Lysis of Streptococcus bovis JB1 via a Mechanism Involving Cell Wall Stability

The non-metabolizable glucose analog, 2-deoxyglucose (2-DG), decreased the growth rate and optical density of Streptococcus bovis JB1 20%, but it had an even greater effect on stationary phase cultures. Control cultures receiving only glucose (2 mg/ml) lysed very slowly (<5% decline in optical density in 48 h), but cultures that had been grown with glucose and 2-DG (2 mg/ml each) lysed much faster (>85% decline in optical density in 48 h). Cultures that were treated with inhibitors that decreased intracellular ATP (sodium fluoride, nigericin, and valinomycin or tetrachlorosalicylanilide) or membrane potential (sodium fluoride, nigericin, and valinomycin, tetrachlorosalicylanilide, or phenylmethylsulfonyl fluoride) did not promote lysis. 2-DG had its greatest effect when it was added at inoculation. If 2-DG was added at later times, less lysis was observed, and cells that were given 2-DG just prior to stationary phase were unaffected. Cells that were grown with glucose and 2-DG were more susceptible to cell wall-degrading enzymes (lysozyme and mutanolysin) than cells that had been grown only with glucose, but sublethal doses of penicillin during growth did not promote lysis after the cells had reached stationary phase. The idea that 2-DG might be affecting autolytic activity was supported by the observation that cultures washed and resuspended in fresh medium with or without 2-DG lysed at a slower rate than cultures that were not centrifuged or were resuspended in the culture superntant. Received: 11 April 1997 / Accepted: 10 June 1997     

Influence of upper respiratory tract on liquid flow to and from fetal lungs

The experiments were designed to determine the influence of the upper respiratory tract (URT) on liquid flow in the fetal trachea. This flow probably influences pulmonary distension, which is thought to be a major determinant of prenatal lung development. In six fetal sheep the URT could be bypassed by connecting the lower trachea, via an external flowmeter, to a cannula in the amniotic sac. In confirmation of our earlier findings, when the URT was in circuit, the mean rate of tracheal efflux was greater during episodes of fetal breathing movements (FBM) [mean 13.8 +/- 2.6 (SE) ml/h] than during apneic periods (mean 3.2 +/- 1.0 ml/h). When the URT was bypassed there was a reversal of net tracheal flow during FBM episodes (mean 19.6 +/- 5.6 ml/h toward the lungs); during apnea there was a much greater rate of efflux (mean 33.1 +/- 10.2 ml/h) than when the URT was in circuit. Nonlabor uterine contractions were associated with an increased rate of efflux during apnea only when the URT was bypassed. We conclude that during fetal life the URT imposes an essentially unidirectional flow of pulmonary liquid away from the lungs, preventing ingress of amniotic fluid and maintaining constancy of composition of liquid in the developing airways. By retarding outward flow during periods of apnea and thoracic compression and by preventing net influx during episodes of FBM, the URT has the probable effect of maintaining the volume and composition of liquid in the fetal airways within narrow limits.     

Relationship of respiratory pathways in soybean cell suspensions to growth of the cells at various glucose concentrations

Green soybean cells (Glycine max L.) were grown in suspension culture on B₅-medium containing various glucose concentrations (2%, 4% or 8% glucose and 2% glucose + 2% or 6% mannitol). Respiratory parameters have been determined in these cells in relation to growth.The length of the growth phase and the amount of dry weight produced increased with higher glucose concentrations. In cells cultured in the presence of 2% glucose, 4% glucose or 2% glucose + 2% mannitol, the activity of the cytochrome pathway (V _cyt )and the capacity of the alternative pathway (V _alt )were not significantly different. Also the contribution of the alternative pathway to total respiration was essentially the same.The glucose content of cells grown in 2% or 4% glucose was roughly equal, which might explain the absence of any effect of the increased glucose concentration on the respiratory parameters.In cells grown in 8% glucose or on 2% glucose + 6% mannitol, both the activity of the cytochrome pathway and the capacity of the alternative pathway were lower. High values of (approaching 1) were found in these cells, meaning that the alternative pathway is nearly fully operative. This is probably caused by the impairment of the cytochrome pathway due to the high osmotic value of the medium.ATP-production per batch per day has been calculated from oxygen uptake data, integrated and compared with cellular dry weight production to give values of 13-15.3 g dry weight produced mole ATP^-1.The described experiments produce no direct evidence for a function of the alternative pathway as energy overflow in soybean cells. The higher alternative pathway activity in the lag phase might be attributed to the great demand for intermediates during this phase.Abbreviations FW Fresh Weight - BHAM Benzhydroxamate     

Prefrontal cortical activity predicts the occurrence of nonlocal hippocampal representations during spatial navigation

The receptive field of a neuron describes the regions of a stimulus space where the neuron is consistently active. Sparse spiking outside of the receptive field is often considered to be noise, rather than a reflection of information processing. Whether this characterization is accurate remains unclear. We therefore contrasted the sparse, temporally isolated spiking of hippocampal CA1 place cells to the consistent, temporally adjacent spiking seen within their spatial receptive fields (“place fields”). We found that isolated spikes, which occur during locomotion, are strongly phase coupled to hippocampal theta oscillations and transiently express coherent nonlocal spatial representations. Further, prefrontal cortical activity is coordinated with and can predict the occurrence of future isolated spiking events. Rather than local noise within the hippocampus, sparse, isolated place cell spiking reflects a coordinated cortical–hippocampal process consistent with the generation of nonlocal scenario representations during active navigation.

This study of active navigation shows that, rather than being local noise within the hippocampus, sparse, isolated place cell spiking reflects a coordinated cortical-hippocampal process consistent with the generation of non-local scenario representations.     

Fractal ventilation enhances respiratory sinus arrhythmia

Background

Programming a mechanical ventilator with a biologically variable or fractal breathing pattern (an example of 1/f noise) improves gas exchange and respiratory mechanics. Here we show that fractal ventilation increases respiratory sinus arrhythmia (RSA) – a mechanism known to improve ventilation/perfusion matching.

Methods

Pigs were anaesthetised with propofol/ketamine, paralysed with doxacurium, and ventilated in either control mode (CV) or in fractal mode (FV) at baseline and then following infusion of oleic acid to result in lung injury.

Results

Mean RSA and mean positive RSA were nearly double with FV, both at baseline and following oleic acid. At baseline, mean RSA = 18.6 msec with CV and 36.8 msec with FV (n = 10; p = 0.043); post oleic acid, mean RSA = 11.1 msec with CV and 21.8 msec with FV (n = 9, p = 0.028); at baseline, mean positive RSA = 20.8 msec with CV and 38.1 msec with FV (p = 0.047); post oleic acid, mean positive RSA = 13.2 msec with CV and 24.4 msec with FV (p = 0.026). Heart rate variability was also greater with FV. At baseline the coefficient of variation for heart rate was 2.2% during CV and 4.0% during FV. Following oleic acid the variation was 2.1 vs. 5.6% respectively.

Conclusion

These findings suggest FV enhances physiological entrainment between respiratory, brain stem and cardiac nonlinear oscillators, further supporting the concept that RSA itself reflects cardiorespiratory interaction. In addition, these results provide another mechanism whereby FV may be superior to conventional CV.     

Stimulation of small intestinal burst activity in the postprandial state differentially affects lipid and glucose absorption in healthy adult humans

Small intestinal motor activity is important for the optimal digestion and absorption of nutrients. These motor responses to feeding are frequently abnormal during critical illness, with the persistence of migrating bursts of contractions during enteral feeding. Whether this disturbance influences nutrient absorption is not known. In this study, the effects of small intestinal burst activity on lipid and glucose absorption were evaluated in 10 healthy human adults (6 males, 4 females, 19-47 yr). Upper gastrointestinal manometry was recorded for 6 h during and shortly after a 20-min intravenous infusion of either erythromycin (1 mg/kg), to stimulate burst activity, or saline (0.9%) in a double-blind randomized fashion. Simultaneously with the start of the intravenous infusion, 60 ml liquid feed mixed with 200 microl 13C-triolein and 2 g 3-O-methylglucose (3-OMG) was infused intraduodenally for 30 min. Absorption of lipid and glucose was assessed using the [13C]triolein breath test and plasma concentrations of 3-OMG, respectively. Infusion of erythromycin was followed by a more rapid onset of burst activity following commencement of the duodenal infusion compared with saline (30 +/- 6.1 vs. 58 +/- 10.7 min; P < 0.05). Erythromycin was associated with a slower recovery of 13CO2 (P < 0.01). A positive correlation existed between the time to onset of burst activity and 13CO2 recovery (P < 0.001). Erythromycin had no effect on 3-OMG absorption. In conclusion, stimulation of small intestinal burst activity reduces the rate of lipid absorption but not glucose absorption in healthy human adults.     

Cardiac Autonomic Nervous System Activation and Metabolic Profile in Young Children: The ABCD Study

Background

In adults, increased sympathetic and decreased parasympathetic nervous system activity are associated with a less favorable metabolic profile. Whether this is already determined at early age is unknown. Therefore, we aimed to assess the association between autonomic nervous system activation and metabolic profile and its components in children at age of 5–6 years.

Methods

Cross-sectional data from an apparently healthy population (within the ABCD study) were collected at age 5–6 years in 1540 children. Heart rate (HR), respiratory sinus arrhythmia (RSA; parasympathetic activity) and pre-ejection period (PEP; sympathetic activity) were assessed during rest. Metabolic components were waist-height ratio (WHtR), systolic blood pressure (SBP), fasting triglycerides, glucose and HDL-cholesterol. Individual components, as well as a cumulative metabolic score, were analyzed.

Results

In analysis adjusted for child’s physical activity, sleep, anxiety score and other potential confounders, increased HR and decreased RSA were associated with higher WHtR (P< 0.01), higher SBP (p<0.001) and a higher cumulative metabolic score (HR: p < 0.001; RSA: p < 0.01). Lower PEP was only associated with higher SBP (p <0.05). Of all children, 5.6% had 3 or more (out of 5) adverse metabolic components; only higher HR was associated with this risk (per 10 bpm increase: OR = 1.56; p < 0.001).

Conclusions

This study shows that decreased parasympathetic activity is associated with central adiposity and higher SBP, indicative of increased metabolic risk, already at age 5–6 years.     

Fructose production by immobilizedArthrobacter cells

Summary ImmobilizedArthrobacter cells (NRRL-B-3728) were used for continuous isomerization of glucose to fructose in a bioreactor system. The system utilized stationary phase (55h) cells (2.2×10⁹ CFU/ml saline) immobilized onto K-carrageenan (3% w/v) beads [cells were heated at 65°C for 10 min to inactivate endogenous proteolytic enzymes]. Immobilized-cell preparations were hardened using three different glutaraldehyde systems. Glutaraldehyde (0.2 M) treated-immobilized cells (pH 7.0, 5°C for 30 min) exhibited good gel strength and high glucose isomerase activities. Maximal bioreactor isomerization of 44% was achieved when a buffered feedstock containing 40% glucose was fed into the column (60°C) at a flow rate of 0.2 ml/min. The biological half-life of glucose isomerase activities in this system was 400 h. Scanning electron microscopy revealed large numbers of cells distributed within the beads. A thin layer surrounding the beads following glutaraldehyde treatment was mainly due to cross-linking reactions between cell proteins and glutaraldehyde. This layer prevented leaking of cells during continuous isomerization reaction.     

Characterization of the portal signal in a nonsteady hyperglycemic state in conscious dogs

To characterize the "portal signal" in a nonsteady hyperglycemic state, the kinetic relationship between net hepatic glucose balance (NHGB) and either hepatic glucose load (HGL) or plasma insulin level was determined during glucose infusion using a catheter technique in 36 conscious dogs. Glucose was infused intraportally (Po group) and peripherally (Pe group) at 39, 56, and 83 micromol x kg(-1) x min(-1) over 2 h. There was a linear relationship between mean NHGB and either mean HGL or plasma insulin levels at each rate in either delivery (HGL: Po r = 0.99, Pe r = 0.95; insulin: Po r = 99, Pe r = 0.79). The threshold levels for net hepatic glucose uptake were 3.8 and 11.7 mmol/l for plasma glucose and 65 and 392 pmol/l for plasma insulin, respectively. The slope of the regression line against the abscissa was four times larger in portal than in peripheral delivery (HGL: Po 0.20 vs. Pe 0.05, P < 0.05; insulin: Po 0.19 vs. Pe 0.04, P < 0.05). These results suggest that the portal signal overrules the threshold of glucose for hepatic uptake by increasing hepatic extraction rate in a nonsteady hyperglycemic state.     

L-Arginine infusion increases glucose clearance during prolonged exercise in humans

Nitric oxide synthase (NOS) inhibition has been shown in humans to attenuate exercise-induced increases in muscle glucose uptake. We examined the effect of infusing the NO precursor L-arginine (L-Arg) on glucose kinetics during exercise in humans. Nine endurance-trained males cycled for 120 min at 72+/-1% Vo(2 peak) followed immediately by a 15-min "all-out" cycling performance bout. A [6,6-(2)H]glucose tracer was infused throughout exercise, and either saline alone (Control, CON) or saline containing L-Arg HCL (L-Arg, 30 g at 0.5 g/min) was confused in a double-blind, randomized order during the last 60 min of exercise. L-Arg augmented the increases in glucose rate of appearance, glucose rate of disappearance, and glucose clearance rate (L-Arg: 16.1+/-1.8 ml.min(-1).kg(-1); CON: 11.9+/- 0.7 ml.min(-1).kg(-1) at 120 min, P<0.05) during exercise, with a net effect of reducing plasma glucose concentration during exercise. L-Arg infusion had no significant effect on plasma insulin concentration but attenuated the increase in nonesterified fatty acid and glycerol concentrations during exercise. L-Arg infusion had no effect on cycling exercise performance. In conclusion, L-Arg infusion during exercise significantly increases skeletal muscle glucose clearance in humans. Because plasma insulin concentration was unaffected by L-Arg infusion, greater NO production may have been responsible for this effect.     

Trehalose absorption related with trehalase in developing ovaries of the silkworm,Bombyx mori

Summary The mechanism of trehalose absorption was examined in developing ovaries of the silkworm,Bombyx mori. Trehalose and glucose absorption followed saturation kinetics giving an apparentK _m value of 8.4 mM and a V_max of 12.5 moles/30 min per g ovaries for trehalose absorption, and an apparentK _m value of 26.4 mM and a V_max of 36.6 moles/30 min per g ovaries for glucose uptake. Trehalose absorption was clearly inhibited by addition of NaCN or NaN₃ to the incubation medium.Cellobiose, maltose, sucrose and turanose were taken up by ovaries at much lower rates than trehalose. Among the disaccharidases which hydrolyse these sugars, trehalase activity was highest. The correlation between trehalase activity and trehalose absorption rate was also demonstrated by a reduction of trehalase activity accompanied by reduced absorption rates after extirpation of the suboesophageal ganglion (SG). During trehalose absorption, glucose was released into the incubation medium, but after SG removal, no liberation of glucose was observed. Furthermore, no accumulation of¹⁴C-trehalose, added to the medium, was observed in the cells and almost all radioactivity was recovered as glucose and glycogen in the ovaries.These results suggest that in developing silkworm ovaries, trehalose is absorbed by a specific carriermediated and energy-dependent system, in which the hydrolysis by trehalase is an obligatory step.     

Effects of glycose on NADP and NAD glutamate dehydrogenase activities and their relation to ammonium and pH levels in cultures of Bipolaris maydis race T

NADP-glutamate dehydrogenase (NADP-GDH) and NAD-glutamate dehydrogenase (NAD-GDH) activities from Bipolaris maydis race T (ATCC 36180) were determined by measuring the change in absorbance at 340 nm of either reduced NADP or NAD in a reaction mixture of NH₄C1, -ketoglutarate and a cell free extract of the fungus. NADP-GDH activity was high at 48 h, but low at 72 and 96 h when the fungus was incubated on a reciprocal shaker at 28 °C in a mineral salts medium containing 2 g/l glucose and 4 g/l Lasparagine. In contrast, in these cultures NAD-GDH activity was low at 48 h, but high at 72 and 96 h. At 72 and 96 h glucose was not detected in the culture medium. In addition, levels of ammonium and pH increased from 0.0 moles/ml and pH 5.8 at 48 h to 10.6 moles/ml and pH 7.2 at 72 h, and to 23.0 moles/ml and pH 8.4 at 96 h. Fungal mycelia were transferred after 48 h of incubation on media containing 2 g/l glucose and 4 g/l L-asparagine to fresh media containing 0, 2 or 5 g/l glucose with and without 4 g/l L-asparagine. Twenty-four h after transfer to fresh media containing 5 g/l glucose with L-asparagine or 2 or 5 g/l glucose without L-asparagine, NADP-GDH activity was high and NAD-GDH activity was low. Glucose was detected in the culture medium, ammonium was not detected and the pH remained unchanged or decreased. In contrast, 24 h after transfer to fresh media with 0 or 2 g/l glucose with L-asparagine and on media lacking glucose or L-asparagine, NADP-GDH activity was low and NAD-GDH activity was high. Glucose was not detected in the culture medium, ammonium levels were high and the pH increased. Thus, accumulation of ammonium and pH increases accompanying depletion of glucose in a L-asparagine medium could be related to a change in the capacity of B. maydis race T to assimilate and produce ammonium via pathways involving glutamate dehydrogenases.