Distribution of glutamate dehydrogenase in the intestine of the earthworm (Lumbricus terrestris), and some physiological implications

• 1.1. Intestines of fresh and dehydrated-starved L. terrestris were compared to tissue and anterior-posterior distribution of glutamate dehydrogenase (GDH) and other mitochondrial or cytosol dehydrogenases.
• 2.2. For any dehydrogenase, including GDH, practically all the activity was in the gut epithelium. This distribution of GDH supports Tillinghast (1967, 1968) as to the excretory route for ammonia.
• 3.3. While the distributions of the marker dehydrogenases were reasonably uniform along the intestine, the GDH activity was predominantly (80–90% of the total activity) in the last third of the mid-intestine, indicating a true physiological differentiation of the midgut tube. The GDH activity of the typhlosole was about two times the activity in the peripheral epithelium. The GDH distribution was independent of the physiological state of the worm.
• 4.4. From the distribution of GDH it follows that the mid-intestine, immediately before the hindgut, is the main region both for amino acid uptake and catabolism. As regards amino acids, it typifies the primitive digestive tube by having both the absorptive and the liver functions.

     

The digestive enzymes of the pacific brown shrimp Penaeus californiensis.: I—Properties of amylase activity in the digestive tract

• 1.1. Crude extract of the whole digestive tract from the brown shrimp (P. californiensis) was investigated for digestive amylase activity.
• 2.2. Considerable amylase activity was found at pH 6.5–8.0, with optimum pH at around 7.5.
• 3.3. Optimum temperature was found between 30–40°C, similar to amylases from other crustaceans.
• 4.4. Amylase activity was highly halotolerant, having 50% maximum activity at 3 M NaCl.
• 5.5. Maximum amylase activity was found at 0.01 M NaCl.
• 6.6. Amylase activity was partially inhibited by the divalent ions Hg²⁺, Zn²⁺, Cu²⁺ and Cr²⁺.
• 7.7. Mg²⁺ and Ca²⁺ ions seemed to enhance amylase activity.

     

Effects of lysine administration on plasma arginine and on some nitrogenous catabolites in rainbow trout

• 1.1. Rainbow trout were fed either graded levels of lysine (0.8, 1.8 and 3%) at a constant level of arginine (1.4%) or excess arginine (2.4%) at a fixed level of lysine (1.8%).
• 2.2. Increasing the dietary lysine level affected plasma urea, plasma arginine and ammonia excretion.
• 3.3. Trout fed graded levels of lysine received an arginine challenge (U¹⁴C-l-arginine) and it was found that excess dietary lysine led to a decrease in arginine degradation.
• 4.4. Injection of l-lysine induced a decrease in urea excretion, while injection of l-arginine increased both urea and ammonia excretion in control well-fed trout.
• 5.5. These results are discussed in the light of current knowledge on the antagonism between lysine and arginine.

     

Volatile fatty acid excretion during anaerobiosis in the lugworm Arenicola marina

• 1.1. Accumulation and excretion of propionate and acetate during experimental anaerobiosis were investigated in the lugworm Arenicola marina.
• 2.2. The rate of accumulation and the ratio propionate/acetate were found to be tissue-specific.
• 3.3. The excretion of the volatile fatty acids showed a characteristic time course.
• 4.4. The results of experiments analyzing the role of different organs indicate that the excretion of these metabolites proceeded via the undifferentiated surface of the body.
• 5.5. The rate of excretion depended on the concentration gradient between animal and the ambient water, the chain-length of the fatty acid and the pH of the water. Propionate excretion was inhibited by butyrate.

     

A simple and reliable method for the purification of Pseudomonas aeruginosa phospholipase C produced in a high phosphate medium containing choline

• 1.1. Pseudomonas aeruginosa phospholipase C from culture supernatants of bacteria grown in high-P_i basal salt medium with choline, as the sole carbon and nitrogen source, was purified by precipitation with 70% saturation ammonium sulfate in the presence of celite.
• 2.2. The PLC activity was eluted of this mixture by the use of a reverse gradient of 70-0% ammonium sulfate.
• 3.3. The peak containing the PLC activity revealed a single protein after SDS-PAGE.
• 4.4. The method could also be applied to purify PLC produced in a low-P_i complex medium. The resultant preparation was not homogeneous.
• 5.5. The molecular weight for both PLC preparations was about 70 kDa.
• 6.6. Both PLC used phosphatydilcholine and sphingomyelin as substrates, displayed hemolytic activity an exhibited an apparent K_M of 25 mM for p-nitrophenylphosphorylcholine.
• 7.7. They were not inhibited by 1% sodium deoxycholate but were 30% inhibited by 1% Triton X-100.
• 8.8. 2% sodium dodecylsulfate and 1% tetradecyltrimethylammonium bromide inhibited the PLC from the HP_l-BSM plus choline but not the enzyme from the LP_l-CM.

     

Phosphonomonoesterase activity in Metridium senile L.

• 1.1. An esterase which hydrolyzes 4-nitrophenyl(phenyl)phosphonic acid (4-NPPP) was purified from M. senile (sea anemone).
• 2.2. The enzyme showed no 5′-nucleotide phosphodiesterase activity with 5′-(4-nitrophenyl) TMP or phosphomonoesterase activity with 4-nitrophenylphosphate.
• 3.3. Addition of excess Zn²⁺ restored activity after inactivation by EDTA.
• 4.4. Thiol reagents and phenylmenthanesulfonylfluoride did not inactivate, whereas, dithiothreitol inactivated.
• 5.5. Aminoethylphosphonic acid (AEP) was a competitive inhibitor of 4-NPPP indicating possible activity with phosphonomonoesters of AEP.

     

Human GMP synthetase

• 1.1. The specific activity of GMP synthetase was measured in several human tissues and found to be highest in cultured skin fibroblasts, followed by bone marrow, leukocytes, erythrocytes. placenta, and liver.
• 2.2. The enzyme from fibroblasts was purified approximately 50-fold by ammonium sulfate fractionation and gel filtration.
• 3.3. The K_m values were determined to be 4.9μM for XMP, 270μM for ATP. and 340 μM for glutamine.
• 4.4. Ammonium sulfate could replace glutamine as the amino donor but was much less efficient.
• 5.5. The enzyme was specific for ATP as the energy source.
• 6.6. Unlike the calf thymus enzyme, the human enzyme has no requirement for a reduced sulfhydryl compound.
• 7.7. Human GMP synthetase is inhibited by ATP, dATP, azaserine, and hydroxylamine.

     

Sulphate conjugation is the main route of pentachlorophenol metabolism in Daphnia magna

• 1.1. Daphnia magna were exposed for 24 hr to ¹⁴C-labelled pentachlorophenol (PCP) at an initial concentration of 20μg/l in the incubation water. Occurrence of free PCP and its metabolites were measured both from the animals and the water.
• 2.2. Hydrophilic metabolites excreted into water were analysed, after acid or enzymatic hydrolyses, with a liquid-liquid extraction and TLC.
• 3.3. PCP was metabolized and excreted, perhaps solely, via the sulphate conjugation. The average excretion rate, 2.65nmol/g/hr, accounted for 35% of the absorption rate measured at the start of exposure.
• 4.4. Neonate daphnids had an equal ability to metabolize PCP as the older animals. Bioconcentration in young animals was, however, only 23% of that in adult ones.
• 5.5. Effect of naturally humic water on metabolization and excretion of PCP was negligible.

     

Purification and some properties of NAD+-dependent glutamate dehydrogenase from Halobacterium halobium

• 1.1. A NAD⁺-dependent glutamate dehydrogenase (EC 1.4.1.2.) was purified 126-fold from Halobacterium halobium.
• 2.2. Activity and stability of the enzyme were affected by salt concentration. Maximum activity of the NADH-dependent reductive amination of 2-oxoglutarate occurs at 3.2 M NaCl and 0.8 M KCl, and the NAD⁺-dependent oxidative deamination of l-glutamate occurs at 0.9 M NaCl and 0.4 M KCl. The maximum activity is higher with Na⁺ than with K⁺ in the amination reaction while the reverse is true in the deamination reaction.
• 3.3. The apparent K_m values of the various substrates and coenzymes under optimal conditions were: 2-oxoglutarate, 20.2 mM; ammonium, 0.45 M; NADH, 0.07 mM; l-glutamate, 4.0 mM; NAD⁺, 0.30 mM.
• 4.4. No effect of ADP or GTP on the enzyme activity was found. The purified enzyme was activated by some l-amino acids.

     

A new glutamate dehydrogenase from Halobacterium halobium with different coenzyme specificity

• 1.1. Halobacterium halobium has two chromatographically distinct forms of glutamate dehydrogenase which differ in their thermolability and other properties. One glutamate dehydrogenase utilizes NAD, the other NADP as a coenzyme.
• 2.2. The NADP-specific glutamate dehydrogenase (EC 1.4.1.4) was purified 65-fold from crude extracts of H. halobium.
• 3.3. The Michaelis constants for 2-oxoglutarate (13.3 mM), ammonium (3.1 mM) and NADPH (0.077 mM) indicate that the enzyme catalyzes in vivo the formation of glutamate from ammonium and 2-oxoglutarate.
• 4.4. The amination of 2-oxoglutarate by NADP-specific glutamate dehydrogenase is optimal at the pH value of 8.0–8.5. The optimal NaCl or KCl concentration for the reaction is 1.6 M.
• 5.5. None of the several metabolites tested for a possible role in the regulation of glutamate dehydrogenase activity appeared to exert an appreciable influence on the enzyme.
• 6.6. NAD- and NADP-dependent glutamate dehydrogenases from H. halobium showed apparent molecular weights of 148,000 and 215,000 respectively.

     

Some properties of ATPase activity in the intact cells of yeast Saccharomycopsis fibuligera

• 1.1. The properties of ATPase activity were studied with the cells at the early stationary phase of Saccharomycopsis fibuligera.
• 2.2. Optimal pH for the activity was approximately 7.
• 3.3. The activity was stimulated by Mg²⁺.
• 4.4. The activity was inhibited by NaF, DCCD, oligomycin, NaN₃, NaVO₃, or PCMB but not inhibited by ouabain.

     

Study of the heme catabolism of fish

• 1.1. The composition of bile pigments in the blood and bile of 39 species were studied.
• 2.2. Conjugated bilirubin (trace to 4.62 mg/100 ml) was detected in the serum of most fish, while biliverdin (trace to 2.0 mg/100ml) was detected only in Anguilla Japonica, Thalassoma lunare and Clinocottus analis.
• 3.3. Analysis showed tht there are two types of bile pigments excretion pattern in these fishes. The first pattern excretes bilirubin (most conjugate) predominantly, the other excretes mostly biliverdin with some bilirubin. However, during starvation, the excretion of conjugate bilirubin gradually shifted to unconjugated biliverdin. The rate of shifting varies with species.
• 4.4. Introduction of bilirubin into Anguilla japonica produced an initial excretion of mono-conjugates, followed by di-conjugates. Introduction of biliverdin caused an increased in the excretion of unconjugated biliverdin, but no significant increase of bilirubin in the bile was detected.
• 5.5. A binary excretion pathway of bile pigments in fish is proposed. The evolutionary characteristics of heme catabolism in terrestrial animals with respect to this pathway is discussed.

     

Regulation of coenzyme utilization by bovine liver glutamate dehydrogenase: Investigations using thionicotinamide analogues of NAD and NADP in a dual wavelength assay

• 1.1. The coenzyme preference of bovine liver glutamate dehydrogenase (GDH) was probed using dual wavelength spectroscopy and pairing the thionicotinamide analogues, S-NAD or S-NADP (which have absorbance maxima at 400 nm), with the natural coenzymes, NADP or NAD.
• 2.2. S-NAD and S-NADP were found to be good alternate substrates for GDH : the apparent Kinm's for the thioderivatives were similar to those of the corresponding natural coenzymes, the apparent Kinm's for glutamate were unaltered by the substitution of the thioderivatives, and the effects of inhibitors and activators on S-NAD or S-NADP kinetics were qualitatively the same as those found for NAD or NADP, respectively.
• 3.3. Dual wavelength assays paired NAD and S-NADP or S-NAD and NADP to study the simultaneous reduction of the two coenzymes. Conditions of increasing glutamate concentrations produced differential effects on the rates of the NAD vs NADP reactions, the result, with either nucleotide pair, promoting the NADP linked reaction.
• 4.4. Activators and inhibitors of the GDH reaction also showed differential effects upon the NAD vs NADP linked reaction rates in the dual wavelength assay. ADP and leucine, which activate both the NAD and the NADP linked reactions in single coenzyme assays, preferentially activate the NADP or S-NADP linked reactions in the dual nucleotide assays. GTP produced greater inhibition of the NAD or S-NAD linked reactions than of the NADP or S-NADP reactions while ATP inhibited NAD or S-NAD reactions and activated NADP or S-NADP reactions. The net effect of all metabolite modulators was to promote the NADP linked reaction by decreasing the activity ratios, ν_(Nad)/ν_(S-Nadp) or ν_(S-Nad)/ν_(Nadp).
• 5.5. The results are consistent with the suggestion that NADP is the preferred coenzyme for the oxidative deamination of glutamate by GDH even though the enzyme is capable of utilizing either coenzyme in vitro.

     

Genetic variation at the Lap locus and ammonia excretion following salinity transfer in an estuarine snail

• 1.1. Thais haemastoma were transferred from 30 to 15‰ and 15 to 30‰ S and ammonia excretion was measured for 72 hr.
• 2.2. Increased ammonia excretion following transfer from high to low salinity was significantly greater in snails with the rare Lap allele, Lap⁹⁴.
• 3.3. Increased rates of nitrogen loss induced by salinity reductions could be responsible for maintaining the Lap⁹⁴ allele at low frequency in estuarine populations of T. haemastoma.

     

Phospholipase A activity of culture supernatants from Streptococcus mutans strain 6715

• 1.1. Phospholipase A activity was found in the culture broth of growing cultures of Streptococcus mutans strain 6715.
• 2.2. The amount of enzyme activity was proportional to the cell density of the cultures.
• 3.3. The enzyme had a pH optimum of 7.0 and was inactivated at temperatures greater than 45°C.
• 4.4. The enzyme was Ca²⁺-dependent, since both EDTA and EGTA were inhibitory and Ca²⁺ was stimulatory.
• 5.5. Analysis of the fatty acid products resulting from the enzyme's action on 1-palmitoyl-2-oleoyl phosphatidylcholine indicated the enzyme to be a phospholipase A₁, (EC 3.1.1.32).

     

Effect of inorganic phosphate on synthesis of 5-phosphoribosyl-1-pyrophosphate in cultured plant cells

• 1.1. Inorganic phosphate (Pi) was absorbed rapidly by suspension-cultured cells of Catharanthus roseus which had previously been cultured in Pi-free Murashige Skoog medium.
• 2.2. The intracellular levels of ATP, ADP and 5-phosphoribosyl-l-pyrophosphate (PRPP) increased markedly during the 24 hr which followed the addition of Pi (1.25mM).
• 3.3. Availability of PRPP in vivo, estimated by the measurement of nucleotide synthesis from [8-¹⁴C]adenine, was also increased by addition of Pi.
• 4.4. Only a 20% increase in the maximum catalytic activity of PRPP synthetase was observed in extracts of cells, prepared 24 hr after addition of Pi.
• 5.5. In contrast to results for mammalian PRPP synthetase, the activity of PRPP synthetase, partially purified from Catharanthus roseus, was inhibited by concentration of Pi greater than 5mM.
• 6.6. The mechanisms involved in the increased availability of PRPP and the synthesis of adenine nucleotides in the plant cells cultured in Pi-containing medium are discussed.

     

Purification and some properties of an atypical alkaline p-nitrophenylphosphate phosphatase activity from Halobacterium halobium

• 1.1. An alkaline p-nitrophenylphosphate phosphatase has been purified 440-fold from extracts of Hatobacterium halobium.
• 2.2. The enzyme has an apparent molecular weight of 24,000.
• 3.3. A K_m value for p-nitrophenylphosphate of 1.12mM has been found under optimal conditions.
• 4.4. The enzyme is selectively activated and stabilized by Mn²⁺.
• 5.5. It requires high salt concentrations for stability and maximum activity.
• 6.6. It displays an unusual restricted substrate specificity of 25 phosphate esters tested, only phosphotyrosine and casein were hydrolysed besides p-nitrophenylphosphate.

     

Characterization of NaK ATPase from the gills of the freshwater prawn Macrobrachium rosenbergii (de Man)

• 1.1. The specific activity of Na-K ATPase was determined from the microsomal preparation of gills dissected from adult Macrobrachium rosenbergii.
• 2.2. Maximal ATPase activity was achieved at a substrate concentration of 0.5 mM ATP.
• 3.3. Optimal enzyme activity was obtained at pH of 7.5.
• 4.4. The Arrhenius plot of Na-K ATPase activity revealed a marked discontinuity at 30°C. “Mg” ATPase activity did not exhibit a marked discontinuity.
• 5.5. The E_a for Na-K ATPase and “Mg” ATPase was 14.6 kCal/mole and 9.31 kCal/mole respectively. Q₁₀ values for Na-K ATPase was 2.34 and for “Mg” ATPase 1.65.
• 6.6. ATPase activity and gill homogenate protein concentration exhibited a linear relationship up to 130 μg protein/ml.
• 7.7. Na-K ATPase activity was inhibited by 10⁻³ M ouabain. It was equally inhibited by the removal of K⁺ from the reaction medium.

     

Influence of temperature,rate of feeding and body weight on nitrogen metabolism of bream,Abramis brama L

• 1.1. Measurements of the rate of nitrogen consumption, total nitrogen and ammonia excretion and nitrogen absorption of bream, Abramis brama L. (body weight range 0.4–519 g wet wt) were made at 10, 15 and 20 C.
• 2.2. Fish were fed once daily on live zooplankton collected in Lake Balaton and cultured Tubifex sp. at 5–15% of their body weight.
• 3.3. Fish size and temperature had a combined effect on the rate of total nitrogen excretion. Total nitrogen excretion did not increase proportionally with an increase in consumption.
• 4.4. On average, 52–80% of the nitrogen consumed with food was excreted by bream.
• 5.5. The greatest part of total nitrogen excretion was ammonia and its proportion in the total ranged between 53 and 75%.
• 6.6. Temperature did not have any significant effect on the proportion of excreted ammonia and the rate of excreted total nitrogen was the only factor determining its proportion in the total.
• 7.7. The rate of nitrogen absorption of bream was surprisingly very high.

     

Na+-K+ ATPase and carbonic anhydrase activities in larvae,postlarvae and adults of the shrimp Penaeus japonicus (Decapoda,Penaeidea)

• 1.1. Activities of Na⁺-K⁺ ATPase and carbonic anhydrase were measured through the early post-embryonic development of Penaeusjaponicus. In adults, only the Na⁺-K⁺ ATPase activity was measured.
• 2.2. ATPase activity was variable in the successive development stages. From zero in nauplii, the activity slightly increased in zoeae, and rose sharply in mysis stages 2 and 3.
• 3.3. A further significant increase in activity was noted at the transition from late mysis to early postlarvae, concomitant with a change from the larval osmoconforming pattern of osmoregulation to the postlarval and adult hyper-hyporegulating pattern.
• 4.4. The activity of Na⁺-K⁺ ATPase, measured in isolated cephalothorax, increased from PL3 to PL4 to its maximum value in PL5; at this stage, osmoregulatory capacity was fully efficient.
• 5.5. In young stages of P. japonicus, the variations in Na⁺-K⁺ ATPase activity appear correlated with the development of osmoregulatory ultrastructures, and with osmoregulation and salinity tolerance.
• 6.6. These results are discussed with regard to their ecological and physiological implications.
• 7.7. In adults, the activity of Na⁺-K⁺ ATPase was high in gills and epipodites and no activity was detected in branchiostegites. These results are related to the ultrastructure of these organs.
• 8.8. The activity of carbonic anhydrase did not change significantly in larval and postlarval stages.
• 9.9. From these results, it is proposed that the effector sites of osmoregulation are located in branchiostegites, pleurae and epipodites in postlarvae, and in epipodites and mainly in gills in adults.