Energetic aspects of anaerobic growth of Aerobacter aerogenes in complex medium

Molar growth yields for anaerobic growth of Aerobacter aerogenes in complex medium were much higher than for growth in minimal medium. In batch cultures the molar growth yield for glucose varied from 44 to 50 and Y _ATP from 17.1 to 18.8. For glucose-limited chemostat cultures a value of 17.5 g/mole was found for Y _ATP ^max and a value of 2.3 mmoles ATP/g dry weight h for the maintenance coeficient. Growth dependent pH changes were used to control the addition of fresh medium, containing excess of glucose to a continuous culture. The specific growth rate and the population density were dependent on the pH difference between the inflowing medium and the culture. At a value of 1.44 h^-1 the molar growth yield for glucose was about 70 and Y _ATP about 28.5. An-equation is presented, which gives the relation between theoretical and experimental Y _ATP ^max values.     

The intracellular pH of isolated,photosynthetically active Asparagus mesophyll cells

The intracellular pH of isolated, photosynthetically active mesophyll cells of Asparagus sprengeri Regel has been determined, in the light and dark, by the distribution of the weak acid 5,5-dimethyl-[2-¹⁴C]oxazolidine-2,4-dione ([¹⁴C]DMO) between the cells and the liquid medium. [¹⁴C]DMO was taken up rapidly, reaching equilibrium in 7–10 min of incubation, but was not metabolized by the cells, and intracellular binding of the compound was minimal. The intracellular pH, measured at saturating light fluence and 1.5 mM sodium bicarbonate, was found to remain relatively constant at 6.95–7.21 over the external pH range of 5.5–7.2. Illumination of the cells increased the intracellular pH compared to dark controls. The pH of the cytoplasm, excluding and including the chloroplasts (cytoplasmic and bulk cytoplasmic, respectively) was calculated from the experimentally derived intracellular [¹⁴C]DMO concentration and estimates of the vacuolar, chloroplastic and cytoplasmic volumes. The calculated cytoplasmic pH was similar in the light and dark, being 7.75 and 7.74, respectively, while the calculated pH of bulk cytoplasm was 7.85 in the light and 7.49 in the dark. Theoretical analysis indicated that intracellular pH is a good indicator of changes in the bulk cytoplasmic pH but insensitive to changes in vacuolar pH. The external pH optimum for photosynthesis (O₂ evolution) of isolated Asparagus cells was pH 7.2. At pH 8.0 photosynthesis was inhibited by 30% and at pH 5.25 by 45%. Inhibition at alkaline pH may be the result of a decrease in the pH gradient between the cells and the medium, causing CO₂ limitation in the cell. At acid pH, decrease in internal pH caused by substantial accumulation of inorganic carbon may account for the loss in photosynthetic activity.Abbreviations [¹⁴C]DMO 5,5-dimethyl[2-¹⁴C]oxazolidine-2,4-dione - pH_i overall intracellular pH - pH_e pH of external medium     

Na/H exchange in cultured epithelial cells from fish gills

Using primary cultures of gill pavement cells from freshwater rainbow trout, a method is described for achieving confluent monolayers of the cells on glass coverslips. A continuous record of intracellular pH was obtained by loading the cells with the pH-sensitive flourescent dye 2,7-bis(2-carboxyethyl)-5(6)-carboxyfluorescein and mounting the coverslips in the flowthrough cuvette of a spectrofluorimeter. Experiments were performed in HEPES-buffered media nominally free of HCO₃. Resting intracellular pH (7.43 at extracellular pH=7.70) was insensitive to the removal of Cl^– or the application of 4-acetamido-4-isothiocyanatostilbene-2,2-disulfonic acid (0.1 mmol·l^–1), but fell by about 0.3 units when Na⁺ was removed or in the presence of amiloride (0.2 mmol·l^–1). Exposure to elevated ammonia (ammonia prepulse; 30 mmol·l^–1 as NH₄Cl for 6–9 min) produced an increase in intracellular pH (to about 8.1) followed by a slow decay, and washout of the pulse caused intracellular pH to fall to about 6.5. Intracellular non-HCO ₃ ^– buffer capacity was about 13.4 slykes. Rapid recovery of intracellular pH from intracellular acidosis induced by ammonia prepulse was inhibited more than 80% in Na⁺-free conditions or in the presence of amiloride (0.2 mmol·l^–1). Neither bafilomycin A₁ (3 mol·l^–1) nor Cl removal altered the intracellular pH recovery rate. The K _m for Na⁺ of the intracellular pH recovery mechanism was 8.3 mmol·l^–1, and the rate constant at V _max was 0.008·s^–1 (equivalent to 5.60 mmol H⁺·l^–1 cell water·min^–1), which was achieved at external Na⁺ levels from 25 to 140 mmol·l^–1. We conclude that intracellular pH in cultured gill pavement cells in HEPES-buffered, HCO ₃ ^– -free media, both at rest and during acidosis, is regulated by a Na⁺/H⁺ antiport and not by anion-dependent mechanisms or a vacuolar H⁺-ATPase.Abbreviations BCECF 2,7-bis(2-carboxyethyl)-5(6)-carboxy-fluorescein - BCECF/AM 2,7-bis(2-carboxyethyl)-5(6)-carboxy-fluorescein, acetoxymethylester - Cholin-Cl choline chloride - DMSO dimethyl sulfoxide - EDTA ethylene diamine tetra-acetic acid - FBS foetal bovine serum - H ⁺ -ATPase Proton-dependent adenosine triphosphatase - HEPES N-[2-hydroxyethyl]piperazine-N[2-ethanesulfonic acid] - pH _i intracellular pH - pH _e extracellular pH - PBS phosphate-buffered saline - SITS 4-acetamido-4-isothiocyanatostilbene-2,2-disulfonic acid     

Extent of intracellular pH changes during H+ extrusion by maize root-tip cells

³¹P-Nuclear-magnetic-resonance spectra of maize (Zea mays L.) root tips, that had been induced to extrude large amounts of H⁺ in response to fusicoccin (FC) in the presence of potassium salts, indicate that the cytoplasmic pH does not become higher than that of controls. In fact, the cytoplasmic pH may become slightly (approx. 0.1 pH unit) lower in cells extruding H⁺. Estimations of the buffer capacity of the cells show that without active intracellular pH regulation, H⁺ extrusion caused by FC would cause the intracellular pH to rise by at least 0.6 pH unit h^-1. Our results indicate that intracellular pH is tightly regulated even during extreme rates of acid extrusion, and that a rise in cytoplasmic pH is not the signal linking H⁺ extrusion with enhanced organic-acid synthesis or other intracellular responses to H⁺ pumping.Abbreviations FC fusicoccin - P_i inorganic phosphate - NMR nuclear magnetic resonance - chemical shift - MDP methylene diphosphonic acid     

Phosphate uptake inLemna gibba G1: energetics and kinetics

Phosphate uptake was studied by determining [³²P]phosphate influx and by measurements of the electrical membrane potential in duckweed (Lemna gibba L.). Phosphate-induced membrane depolarization (E _m ) was controlled by the intracellular phosphate content, thus maximal E _m by 1 mM H₂PO ₄ ^- was up to 133 mV after 15d of phosphate starvation. The E _m was strongly dependent on the extracellular pH, with a sharp optimum at pH 5.7. It is suggested that phosphate uptake is energized by the electrochemical proton gradient, proceeding by a 2H⁺/H₂PO ₄ ^- contransport mechanism. This is supported also by the fusicoccin stimulation of phosphate influx. Kinetics of phosphate influx and of E _m , which represent mere plasmalemma transport, are best described by two Michaelis-Menten terms without any linear components.Abbreviations E _m electrical membrane potential difference - E _m phosphate-induced, maximal membrane depolarization - FW fresh weight     

Electron-transport chain and coupled oxidative phosphorylation in methanol-grown Paracoccus denitrificans

Methanol dehydrogenase of Paracoccus denitrificans was shown to be very similar to the enzyme of Pseudomonas sp, M. 27. The K _m value for methanol with excess activator (ammonium ions) is 35 M. The pH optimum for enzyme activity with 2,6-dichlorophe-nolindophenol as electronacceptor was at 9.0 A CO-binding type of cytochrome c was present only in cells grown with methanol as carbon and energy source.It has been shown that methanol-oxidation involves electron-transport via cytochrome c and an a-type cytochrome to oxygen. Antimycin A did not inhibit this electron transport and 90% inhibition was obtained by 375 M potassium cyanide. Electron transport from endogenous substrates is possible via cytochrome b and possibly cytochrome o to oxygen. Potassium cyanide inhibited 90% of the electron transport via this pathway at a concentration of 1.42 mM. Measurement of respiration-driven proton translocation proved that during oxidation of methanol to formaldehyde by oxygen one mole of adenosine triphosphate is synthesized in the site 3 region of the electron transport chain. The H⁺/O value found confirmed the H⁺/site ratio of 3–4 found in heterotrophic grown cells. During electron transport from endogenous substrates to oxygen there is a possible synthesis of 3 moles of adenosine triphosphate.In heterotrophically grown cells electron transfer to oxygen follows almost only the branch of the respiratory chain containing cytochrome o. In methanol-grown cells the pathway via the a-type cytochrome seems more important.Abbreviations DCPIP 2,6-dichlorophenolindophenol - PMS phenazine methosulphate - EPR electron paramagnetic resonance - S.D. standard deviation - ATP adenosine triphosphate     

Blood vessel adaptation to gravity in a semi-arboreal snake

The effects of vasoactive agonists on systemic blood vessels were examined with respect to anatomical location and gravity acclimation in the semi-arboreal snake, Elaphe Obsoleta. Major blood vessels were reactive to putative neurotransmitters, hormones or local factors in vessel specific patterns. Catecholamines, adenosine triphosphate, histamine and high potassium (80 mM) stimulated significantly greater tension per unit vessel mass in posterior than anterior arteries. Anterior vessels were significantly more sensitive to catecholamines than midbody and posterior vessels. Angiotensin II stimulated significantly greater tension in carotid artery than in midbody and posterior dorsal aorta. Arginine vasotocin strongly contracted the left and right aortic arches and anterior dorsal aorta. Veins were strongly contracted by catecholamines, high potassium and angiotensin II, but less so by adenosine triphosphate, arginine vasotocin and histamine. Precontracted vessels were relaxed by acetylcholine and sodium nitroprusside, but not by atrial natriuretic peptide or bradykinin. Chronic exposure of snakes to intermittent hypergravity stress (+1.5 G_z at tail) did not affect the majority of vessel responses. These data demonstrate that in vitro tension correlates with known patterns of sympathetic innervation and suggest that catecholamines, as well as other agonists, are important in mediating vascular responses to gravitational stresses in snakes.Abbreviations ACH acetylcholine - ADA anterior dorsal aorta - ANG II salmon asn¹-val⁵-angiotensin II - ANP rat ile²⁶-atrial natriuretic peptide - ATP adenosine triphosphate - AVT arginine vasotocin - BK human bradykinin - BL total body length - CA carotid artery - CONT control - EC ₅₀ effective concentration producing 50% maximal response - EPI epinephrine - + G _z earth's gravity force - HI-G high gravity acclimation - HI K ⁺ 80 mM high potassium - JV jugular vein - LAA left aortic arch - MDA midbody dorsal aorta - MPV midbody portal vein - MS Mackenzie's solution - NEPI norepinephrine - pD ₂ log EC₅₀ - PDA posterior dorsal aorta - PPV posterior portal vein - RAA right aortic arch - SNP sodium nitroprusside     

Fluorescence microscopy and radiolabeling of C3 and C4 chloroplasts using diisothiocyanatostilbene disulfonic acid as a marker for the phosphate translocator

The usefulness of 4,4-diisothiocyanatostilbene-2,2-disulfonic acid (DIDS) for in-situ studies of the chloroplast phosphate translocator was evaluated by fluorescence microscopy and radiolabeling of spinach (Spinacia oleracea L.) (C₃ plant) and maize (Zea mays L.) (C₄ plant) chloroplasts. In maize mesophyll and bundle-sheath chloroplasts and in spinach chloroplasts that were either intact, broken or swollen, DIDS fluorescence was only associated with the chloroplast envelope. Intact chloroplasts often had fluorescent patches corresponding to concave regions of the chloroplast which we assume to be regions enriched in DIDS-binding sites.Incubation of intact or broken spinach chloroplasts or maize mesophyll chloroplasts with [³H₂]DIDS resulted in the labeling of a single polypeptide (relative molecular mass, M_r, 30 kDa) in the envelope fraction, in each case. Label in the stromal fraction was not detected when intact chloroplasts were incubated with [³H₂]DIDS. However, when broken chloroplasts were incubated with [³H₂]DIDS, several polypeptides of various molecular masses were labeled, but not the 30×31-kDa polypeptide. In thylakoid fractions from both broken and intact chloroplasts, a single 30×31-kDa polypeptide was labeled inconsistently. When a mixture of intact maize mesophyll and bundle-sheath chloroplasts was labeled with [³H₂]DIDS, extracts of whole chloroplasts displayed radioactivity only in the 30×31-kDa band.We conclude that DIDS is a valuable probe for the in-situ identification and characterization of the 30-kDa protein — the presumptive phosphate translocator — in C₃ and C₄ chloroplasts since DIDS (1) does not penetrate the inner membrane of the envelope of intact chloroplasts and, therefore, (2) does not bind internal sites in intact chloroplasts, and (3) only binds the 30-kDa protein in the inner membrane of the envelope.Abbreviations CBB Coomassie brilliant blue - DIC differential interference contrast optics - DIDS 4,4-diisothiocyanatostilbene-2,2-disulfonic acid - [³H₂]DIDS 1,2-ditritio-1,2-(2,2-disulfo-4,4-diisothiocyano)diphenylethane - kDa kilodalton - M_r relative molecular mass - PGA 3-phosphoglycerate - Pitranslocator phosphate translocator - SDS sodium dodecyl sulfate     

Detection of a 65 kDaras binding protein in rat and sheep brain cytosol using a chemical cross linking agent

The ability of aras protein to associate with proteins present in rat brain cytosolin vitro was investigated using chemical cross-linking agents and the¹²⁵I-labelled v-H-ras protein. Two iodinated protein complexes with apparent molecular weights of 40 and 85 kDa were observed when a mixture of rat brain cytosol and [¹²⁵I]ras was treated with the cross-linking agent disuccinimidyl suberate and subjected to SDS-PAGE. Formation of the [¹²⁵I] 85 kDa complex was enhanced by a high concentration of EDTA while generation of the 40 kDa species was abolished by this treatment. Formation of the [¹²⁵I] 85 kDa complex was inhibited by unlabelledras protein, GTP, GTPS, and GDP but not by ATPS and GMP.Chromatography of the cross-linked brain cytosol-[¹²⁵I]ras mixture on DEAE cellulose partially resolved the [¹²⁵I] 85 kDa complex from the [¹²⁵I]ras protein. The [¹²⁵I] 85 kDa complex (formed using ethyleneglycolbis (succinimidylsuccinate) as the cross-linking agent) could be immunoprecipitated using a rabbit anti-ras polyclonal antibody. Treatment of the immunoprecipitate with hydroxylamine to cleave the cross-link yielded [¹²⁵I]-labelledras. A substantial enrichment of the proportion of the [¹²⁵I] 85 kDa complex in the cross-linked extract was achieved by preparative SDS-PAGE. It is concluded that thein vitro chemical cross-linking approach employed here has detected tworas binding proteins in rat brain cytosol: a 65 kDa heat-sensitive and a 20 kDa heat-stable protein. The possibility that the 65 kDaras binding protein is aras regulatory orras effector protein which has not so far been characterised is briefly discussed.Abbreviations DSS disuccinimidyl suberate - EGS ethyleneglycolbis (succinimidylsuccinate) - GTPS guanosine 5-[-thio] triphosphate - ATPS adenosine 5-[-thio] triphosphate     

Arginine catabolism in Aphanocapsa 6308

The catabolic products of arginine metabolism were observed in Aphanocapsa 6308, a unicellular cyanobacterium, by thin layer chromatography of growth media, by limiting growth conditions, and by enzymatic analysis. Of the organic, nitrogenous compounds examined, only arginine supported growth in CO₂-free media. The excretion of ornithine at a concentration level greater than citrulline suggested the existence in Aphanocapsa 6308 of the arginine dihydrolase pathway which produced ornithine, CO₂, NH₄, + adenosine 5-triphosphate. Its existence was confirmed by enzymatic analysis. Although cells could not grow on urea as a sole carbon source a very active urease and subsequently an arginase were also demonstrated, indicating that Aphanocapsa can metabolize arginine via the arginase pathway. The level of enzymes for both pathways indicates a lack of genetic control. It is suggested that the arginase pathway provides only nitrogen for the cells whereas the arginine dihydrolase pathway provides not only nitrogen, but also CO₂ and adenosine 5-triphosphate.Nonstandard Abbreviations CCCP carbonylcyanide mchlorophenyl hydrazone - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethyl urea - CGP cyanophycin granule protein - PS II photosystem II - PSI photosystem I - TLC thin layer chromatography - TCA trichloroacetic acid - DPM disintegrations per min     

Acidosis,glycolysis and energy state in anaerobic heart tissue from rainbow trout

With focus on metabolism not depending on contractility in myocardial tissue from rainbow trout, Oncorhynchus mykiss, the effects of high CO₂ on lactate production, phosphocreatine, creatine, ATP, ADP, AMP and intracellular pH were examined under a blockage of cell respiration either alone or in combination with a glycolytic inhibition. Irrespective of metabolic interventions, a change in CO₂ from 1 to either 11 or 5% of the gas mixture perfusing the muscle bath with 15 mmol·l^-1 HCO _- ³ caused a drop of intracellular pH from 7.4 to either 6.5 or 7.0, respectively. An elevation of CO₂ to 11% diminished the rate of anaerobic lactate formation and slightly lowered anaerobic energy degradation. The further addition of 1 mmol·l^-1 iodoacetate to inhibit glycolysis strongly enhanced the tendency of acidosis to lower energy degradation. Moreover, iodoacetate induced a parallel decrease in ATP and total concentration of phosphorylated adenylates and an increase in resting tension. These effects were all substantially dampened by acidosis and could not immediately be related to tissue content of energy-rich phosphates. Tentatively, the depression of resting tension was the prime effect and a cause of the other effects acidosis. However, these were not affected by an inhibition of resting tension development with 2,3-butadione monoxime. The results suggest that glycolysis protects the anaerobic myocardium also by means not immediately related to tissue energy state. Acidosis exerts a similar protection, which is marginal as long as glycolysis is fully active, but substantial with an inhibited glycolysis.Abbreviations Cr _t total tissue concentration of creatine - G _PCr energy liberated per mol PCr hydrolyzed - IAA iodoacetate - PCr phosphocreatine - PE total tissue concentration of energy-rich phosphate bonds - pH _i intracellular pH - P _i inorganic phosphate - TAN total tissue concentration of phosphorylated adenylates - 2,3-BDM 2,3-butadione monoxime - SE standard error of the mean     

Effects of chemical modification of amino and sulfhydryl groups on KATP channel function and sulfonylurea binding in CRI-G1 insulin-secreting cells

The effects of several group-specific chemical reagents were examined upon the activity of the ATP-sensitive potassium (K_ATP) channel in the CRI-G1 insulin-secreting cell line. Agents which interact with the sulfhydryl moiety (including 1 mM N-ethylmaleimide (NEM), 1 mM 5,5-dithio-bis-(2-nitrobenzoic acid) (DNTB) and 1 mm o-iodobenzoate) produced an irreversible inhibition of K_ATP channel activity when applied to the intracellular surface of excised inside-out patches. This inhibition was substantially reduced when attempts were made to eliminate Mg²⁺ from the intracellular compartment. ATP 50 m and 100 m tolbutamide were each shown to protect against the effects of these reagents. The membrane impermeable DNTB was significantly less effective when applied to the external surface of outside-out patches. Agents which interact with peptide terminal amine groups and amino groups of lysine [1 mm methyl acetimidate and 1 mm trinitrobenzene sulfonic acid (TNBS)] and also the guanido group of arginine (1 mm methyl glyoxal) produced a Mg²⁺-dependent irreversible inhibition of K_ATP channel activity which could be prevented by ATP but not tolbutamide. The irreversible activation of the K_ATP channel produced by the proteolytic enzyme trypsin was prevented only when methyl glyoxal and methyl acetimidate were used in combination to inhibit channel activity. Radioligand binding studies showed that the binding of ³H glibenclamide was unaffected by any of the above agents with the exception of TNBS which completely inhibited binding with a EC₅₀ of 307 ±6 m.These results provide evidence for the presence of essential sulfhydryl (possibly cysteine), and basic amino acid (possibly lysine and arginine) residues associated with the normal functioning of the K_ATP channel. Furthermore, we believe that the sulfhydryl group in question is situated at the internal surface of the membrane, possibly near to the channel pore.K.L. is a Wellcome Prize Student. This work was supported by the Wellcome Trust, MRC and BDA.     

Distribution of polyphosphates in cell-compartments of Chlorella fusca as measured by 31P-NMR-spectroscopy

In suspensions of the green alga Chlorella fusca the influence of high pH and high ethylene-diamine-tetraacetic acid concentrations in the external medium, of French-press and perchloric acid extraction of the cells and of alkalization of the intracellular pH on the polyphosphate signal in ³¹P-nuclear magnetic resonance (³¹P NMR) spectra was investigated.The results show that part of the polyphosphates of asynchronous Chlorella cells are located outside the cytoplasmic membrane and complexed with divalent metal-ions. These polyphosphates are tightly bound to the cell wall and/or the cytoplasmic membrane and are not susceptible to hydrolyzation by strong acid at room temperature, in contrast to the intracytoplasmic polyphosphates.Upon alkalization of the internal pH of Chlorella cells, polyphosphates, previously not visible in the spectra become detectable by ³¹P-NMR-spectroscopy. ³¹P-NMR spectroscopic monitoring of polyphosphates during gradual alkalization of the extra-and intracellular space is proposed as a quick method for the estimation of the cellular polyphosphate content and distribution.Abbreviations CCCP Carbonylcyanide-m-chlorophenyl-hydrazone - NTP/NDP Nucleotide triphosphate/-diphosphate - PCA Perchloric acid - ³¹P-NMR ³¹P-nuclear magnetic resonance - PolyP polyphosphates - PP₁, PP₂, PP₃ terminal, second and third phosphate residue of polyphosphates, respectively - PP₄ core phosphate residues of polyphosphates     

31P-NMR saturation transfer study of the in vivo kinetics of arginine kinase in Carcinus crab leg muscle

The kinetics of the reaction catalyzed by arginine kinase have been determined at 9.5 and 23°C for in vivo leg muscle of Carcinus maenas (the common shore crab) using the noninvasive technique of ³¹P-NMR spectroscopy. Concentrations of mobile phosphorus metabolites were the same at both temperatures: 78.7 mM for arginine phosphate, 9.0 mM for adenosine triphosphate (ATP), and 2.6 mM for inorganic phosphate (P_i), as estimated from NMR resonance intensities and literature values for ATP concentration as assayed by traditional biochemical methods. Apparent unidirectional rate constants for formation of ATP from arginine phosphate and ADP were 0.09 s^?1 at 9.5°C and 0.27 s^?1 at 23°C. Pseudo-first-order rate constants for arginine phosphate generation from Arg and ATP were 0.38 and 1.10 s^?1 at 9.5 and 23°C, respectively. In vivo Q₁₀ for the arginine kinase reaction between 9.5 and 23°C was thus 2.2 for both directions. When the kinetic data are analyzed using the Arrhenius equation, activation energies of 126 kJ/mol for ATP formation and 105 kJ/mol for arginine phosphate formation are found. The measured chemical fluxes through arginine kinase in the forward reaction (arginine phosphate hydrolysis) were twice those in the reverse reaction, consistent with either compartmentation of substrates or participation of substrates in alternative metabolic pathways.     

De novo purine biosynthesis in the crustacean Artemia: Influence of salinity and geographical origin

Summary In vivo studies of the incoporation of [U-¹⁴C]glycine into purine nucleotides have established the de novo pathway for purine biosynthesis in Artemia sp. during the early period of larval development. This pathway can be modified by the salt concentration of the incubation media. In addition, Artemia of different geographical origins may differ with respect to the detection, functionality and variability of this metabolical pathway.Abbreviations ADP adenosine, diphosphate - ASN acid soluble nucleotides - ATP adenosine triphosphate - DNA desoxyribonucleic acid - GDP guanosine diphosphate - GP₄G pl, p4-diguanosine 5-tetraphosphate - HPLC high performance liquid chromatography - PCA perchloric acid - RNA ribonucleic acid     

Partial purification and characterization of a soluble protein phosphatase fromLeishmania donovani promastigotes

A soluble protein phosphatase from the promastigote form of the parasitic protozoanLeishmania donovani was partially purified using Sephadex G-100, DEAE-cellulose and again Sephadex G-100 columns. The partially purified enzyme showed a native molecular weight of about 42, 000 in both Sephadex G-100 and sucrose density gradient centrifugation. The sedimentation constant, stokes radius and frictional ratio were found to be 3.43S, 2.8 nm and 1.20 respectively. The enzyme preferentially utilized phosphohistone as the best exogenous substrate. Mg²⁺ ions were essential for enzyme activity; among other metal ions Mn²⁺ can replace Mg²⁺ to a certain extent whereas Ca²⁺, Co²⁺ and Zn²⁺ could not substitute for Mg²⁺. The pH optimum of the enzyme was 6.5–7.5 and the temperature optimum 37°C. The apparent Km for phosphohistone was 7.14 M. ATP, ADP, inorganic phosphate and pyrophosphate had inhibitory effect on the enzyme activity whereas no inhibition was observed with sodium tartrate and okadaic acid. These results suggest thatL. donovani promastigotes possess a protein phosphatase which has similar characteristics with the mammalian protein phosphatase 2C.Abbreviations PMSF phenylmethylsulfonyl fluoride - DTT dithiothreitol - TCA trichloroacetic acid - BSA bovine serum albumin - EDTA ethylenediamine tetraacetic acid - ATP adenosine triphosphate - ADP adenosine diphosphate - AMP adenosine monophosphate - EGTA Ethyleneglycol-bis-(-aminoethyl ether) N,N,N,N-tetraacetic acid     

The role of phosphofructokinase in glycolytic control in the facultative anaerobe Sipunculus nudus

Summary The involvement of phosphofructokinase (PFK) in glycolytic control was investigated in the marine peanut worm Sipunculus nudus. Different glycolytic rates prevailed at rest and during functional and environmental anaerobiosis: in active animals glycogen depletion was enhanced by a factor of 120; during hypoxic exposure the glycolytic flux increased only slightly. Determination of the mass action ratio (MAR) revealed PFK as a non-equilibrium enzyme in all three physiological situations. Duirng muscular activity the PFK reaction was shifted towards equilibrium; this might account for the observed increase in glycolytic rate under these conditions. PFK was purified from the body wall muscle of S. nudus. The enzyme was inhibited by physiological ATP concentrations and an acidic pH; adenosine monophosphate (AMP), inorganic phosphate (P_i), and fructose-2,6-bisphosphate (F-2,6-P₂) served as activators. PFK activity, determined under simulated cellular conditions of rest and muscular work, agreed well with the glycolytic flux in the respective situations. However, under hypoxia PFK activity surpassed the glycolytic rate, indicating that PFK may not be rate-limiting under these conditions. The results suggest that glycolytic rate in S. nudus is mainly regulated by PFK during rest and activity. Under hypoxic conditions the regulatory function of PFK is less pronounced.Abbreviations ATP, ADP, AMP adenosine tri-, di-, monophosphate - DTT dithiothreitol - EDTA ethylene diaminetetra-acetic acid - F-6-P fructose-6-phosphate - F-1,6-P₂ fructose-1,6-bisphosphate - F-2,6-P₂ fructose-2,6-bisphosphate; bwm, body wall muscle; fresh mass, total body weight - G-6-P glucose-6-phosphate - H enthalpy change - K _a activation constant - K _eq equilibrium constant - K _i inhibition constant - K _m Michaelis constant - MAR mass action ratio - NMR nuclear magnetic resonance - PFK phosphofructokinase - P_i inorganic phosphate - PLA phospho-l-arginine - SD standard deviation - TRIS, TRIS (hydroxymethyl) aminomethane - TRA triethanolamine hydrochloride - V _max maximal velocity     

Mechanisms of sulphide tolerance in the peanut worm,Sipunculus nudus (Sipunculidae) and in the lugworm,Arenicola marina (Polychaeta)

Summary The peanut worm Sipunculus nudus and the lugworm Arenicola marina are inhabitants of intertidal flats. Both species may be exposed to H₂S within their habitat. Sulphide concentrations in the vicinity of A. marina burrows are as high as 340 mol · 1^-1, whereas the pore water in sipuncle areas contains much lower sulphide levels of 13 mol · 1^-1 at most. During in vivo sulphide incubations, H₂S increases within the coelomic fluid of both species. In S. nudus the concentration of total sulphide after 8 h is about 40% of that of the incubation medium containing 200 and 1000 mol · 1^-1, respectively, which is partly due to the acidification of the coelomic fluid by 0.2 pH units during anaerobiosis. After 8 h, the sulphide concentration in A. marina was only 15% of that in the incubation medium containing 1000 mol · 1^-1. When oxygen is available, both species oxidize sulphide to thiosulphate, but in A. marina this capability is more pronounced than in S. nudus. If sulphide is not completely oxidized internally both intertidal worms switch to an anaerobic metabolism as indicated by the accumulation of opines and succinate.Abbreviations ATP adenosine triphosphate - HEPES N-2-hydroxyethylpiperazine-N-2-ethanesulphonic acid - HPLC high-performance liquid chromatography - wwt wet weight     

Regulation of cytosolic carbon metabolism in germinating Ricinus communis cotyledons

The cytosolic pyruvate kinase (PK_C, EC 2.7.1.40) and phosphoenolpyruvate carboxylase (PEP-Case, EC 4.1.1.31) from cotyledons of 6-d-old castor seedlings (Ricinus communis L.) have been partially purified and characterized. PK_C was purified 370-fold to a specific activity of 20 mol · min ¹·(mg protein)^–1, and was shown to exist as a 237-kDa homotetramer. In addition, PK_C displayed hyperbolic substrate saturation kinetics and demonstrated pH-dependent modulation by several metabolite effectors including glutamine, glutamate, arginine, malate and 2-oxoglutarate. Most were inhibitors at pH 6.9, while activation by glutamine, asparagine and arginine and only weak inhibition for the rest were observed at pH 7.5. PEPCase was purified 33-fold to a final specific activity of 1 mol · min^–1 · (mg protein)^–1. The subunit and native M_r for the enzyme were shown to be 100 and 367 kDa, respectively, suggesting a homotetrameric native structure. PEPCase displayed a typical pH activity profile with an alkaline optimum and activity decreasing rapidly below pH 7.0. The enzyme was potently inhibited by malate, isocitrate, aspartate and glutamate at pH 7.0, whereas inhibition by these compounds was considerably diminished at pH 7.5. A model depicting the regulation of glycolytic carbon flow during amino-acid and sucrose import by castor cotyledons is proposed.Abbreviations IgG immunoglobulin G - I₅₀a inhibitor concentration producing 50 inhibition of enzyme activity - PK_C and PK_pa cytosolic and plastidic isoenzymes of pyruvate kinase, respectively - PEP phosphoenolpyruvate - PEPCase phosphoenolpyruvate carboxylase - 3-PGA 3-phosphoglycerate This work was supported by the Natural Sciences and Engineering Research Council of Canada (NSERC).