Effects of nucleotides and divalent cations on phospholipase activity in Saccharomyces cerevisiae

Divalent cations activate the lysophospholipase and transacylase reactions catalyzed by the same enzymes in the yeast Saccharomyces cerevisiae. The activation was observed at neutral pH, but not at the pH optimum of lysophospholipase/transacylase, near 3.5. Adenine nucleotides, especially AMP and ADP, are strong inhibitors of the same group of enzymes. Half maximal inhibition by AMP was found at a concentration of about 20 M. The inhibition by nucleotides in low concentrations is enhanced by divalent cations.     

Function of methanofuran,tetrahydromethanopterin, and coenzyme F420 in Archaeoglobus fulgidus

Archaeoglobus fulgidus is an extremely thermophilic archaebacterium that can grow at the expense of lactate oxidation with sulfate to CO₂ and H₂S. The organism contains coenzyme F₄₂₀, tetrahydromethanopterin, and methanofuran which are coenzymes previously thought to be unique for methanogenic bacteria. We report here that the bacterium contains methylenetetrahydromethanopterin: F₄₂₀ oxidoreductase (20 U/mg), methenyltetrahydromethanopterin cyclohydrolase (0.9 U/mg), formyltetrahydromethanopterin: methanofuran formyltransferase (4.4 U/mg), and formylmethanofuran: benzyl viologen oxidoreductase (35 mU/mg). Besides these enzymes carbon monoxide: methyl viologen oxidoreductase (5 U/mg), pyruvate: methyl viologen oxidoreductase (0.7 U/mg), and membranebound lactate: dimethylnaphthoquinone oxidoreductase (0.1 U/mg) were found. 2-Oxoglutarate dehydrogenase, which is a key enzyme of the citric acid cycle, was not detectable. From the enzyme outfit it is concluded that in A. fulgidus lactate is oxidized to CO₂ via a modified acetyl-CoA/carbon monoxide dehydrogenase pathway involving C₁-intermediates otherwise only used by methanogenic bacteria.Non-standard abbreviations APS adenosine 5-phosphosulfate - BV benzyl viologen - DCPIP 2,6-dichlorophenolindophenol - DMN 2,3-dimethyl-1,4-naphthoquinone - DTT DL-1,4-dithiothreitol - H₄F tetrahydrofolate - H₄MPT tetrahydromethanopterin - CH₂ H₄MPT, methylene-H₄MPT - CH H₄MPT, methenyl-H₄MPT - Mes morpholinoethane sulfonic acid - MFR methanofuran - Mops morpholinopropane sulfonic acid - MV methyl viologen - Tricine N-tris(hydroxymethyl)-methylglycine - U mol product formed per min     

The electrochemical proton potential generated by the sulphur respiration of Wolinella succinogenes

Wolinella succinogenes grown on formate and elemental sulphur was found to use the polysulphide derivatives 2,2-tetrathiobispropionate (R₂S₄) or pentathionate (S₅O ₆ ⁼ ) as acceptors for formate oxidation. The specific activities of formate oxidation with these acceptors were similar to those with elemental sulphur. The main reaction products of R₂S₄ reduction were 2,2-dithiobispropionate (R₂S₂) and sulphide. Pentathionate was converted to thiosulphate and some elemental sulphur. The electrochemical proton potential across the cytoplasmic membrane of the bacterium was measured in the steady state of electron transport from formate to R₂S₄. The electrical proportion () of the determined through the distribution of labeled tetraphenylphosphonium cation was obtained as 0.17 Volt. The was zero, when a protonophore was present. The pH-difference across the membrane was negligible. Thus the generated by sulphur respiration is close to that measured earlier with fumarate as the terminal acceptor of electron transport.Abbreviations DMO 5,5-dimethyloxazolidine-2,4-dione - R₂S_n (n=2–5) 2,2-polythiobispropionate - TTFB 4,5,6,7-tetrachloro-2-trifluoromethylbenzimidazol - TPP tetraphenylphosphonium cation     

Pelodictyon phaeoclathratiforme sp. nov., a new brown-colored member of the Chlorobiaceae forming net-like colonies

A new strain of the green sulfur bacteria was isolated from the monimolimnion of Buchensee (near Radolfzell, Lake Constance region, FRG). Single cells were rod-shaped, nonmotile and contained gas vacuoles. Typical net-like colonies were formed by ternary fission of the cells. As photosynthetic pigments bacteriochlorophylls a, e, isorenieratene and -isorenieratene were present. Sulfide, sulfur and thiosulfate were used as electron donors during anaerobic phototrophic growth. Besides carbon dioxide, acetate and propionate could serve as carbon sources under mixotrophic conditions in the light. Like all other members of the green sulfur bacteria, the new bacterium is strictly anaerobic and obligately phototrophic. The possession of gas vacuoles and the formation of net-like colonies and the guanine plus cytosine content of the DNA (47.9 mol% G+C) are typical characteristics of the genus Pelodictyon. Because of its photosynthetic pigments which differ from those of Pelodictyon clathratiforme, strain BU 1 represents a new species, P. Phaeoclathratiforme sp. nov.     

Nontoxic and toxic oligopeptides with D-amino acids and unusual residues in Microcystis aeruginosa PCC 7806

Toxic and nontoxic peptides were isolated from the cyanobacterium Microcystis aeruginosa PCC 7806 by a procedure including extraction of cells with water-saturated 1-butanol, chromatography of the extract on silica gel plates and high performance liquid chromatography (HPLC) on Partisil-5. The toxin was shown to be only a minor constituent, being negatively charged and thus separable by electrophoresis, within the HPLC-purified fraction. It contained erythro-β-methyl-D-Asp, D-Glu, D-Ala, L-Leu, and L-Arg known to be part of the Microcystis peptide-toxin with M_r 994. The major part of the HPLC-purified fraction was assigned, however, to a nontoxic peptide with a M_r of 956. Partial hydrolysis studies of the nontoxic peptide(s) revealed amino acid sequences composed of D-Glu, N-methyl-Phe, and 3,4-dehydro-Pro, aside from the common L-amino acids. Cyclic linkage in the nontoxic peptide(s) appears likely.     

Intracellular transport of cholesterol in type C Niemann-Pick fibroblasts

The purpose of this study was to determine the capacity of Niemann-Pick type C (NPC) fibroblasts to transport cholesterol from the cell surface to intracellular membranes. This is relevant in light of the observations that NPC cells display a sluggish metabolism of LDL-derived cholesterol, a phenomenon which could be explained by a defective intracellular transport of cholesterol. Treatment of NPC cells for 4 h with 0.1 mg/ml of LDL failed to increase the incorporation of [14C]oleic acid into cholesterol [14C]oleate, an observation consistent with previous reports on this cell type (Pentchev et al. (1985) Proc. Natl. Acad. Sci. USA 82, 8247). Normal fibroblasts, however, displayed the classical upregulation (6-fold over control) of the endogenous esterification reaction in response to LDL exposure. Incubation of normal or NPC fibroblasts with sphingomyelinase (100 mU/ml; Staphylococcus aureus) led to a rapid and marked increase (9- and 10-fold for normal and NPC fibroblasts, respectively, after 4 h) in the esterification of plasma-membrane-derived [3H]cholesterol suggesting that sphingomyelin degradation forced a net transfer of cholesterol from the cell surface to the endoplasmic reticulum. The similar response in normal and mutant fibroblasts to the degradation of sphingomyelin suggests that plasma membrane cholesterol can be transported into the substrate pool of ACAT to about the same extent in these two cell types. Degradation of cell sphingomyelin in NPC fibroblasts also resulted in the movement of 20-25% of the cellular cholesterol from a cholesterol oxidase susceptible pool into oxidase-resistant pools, implying that a substantial amount of plasma membrane cholesterol was internalized after sphingomyelin degradation. This cholesterol internalization was not accompanied by an increased rate of membrane internalization, as measured by [3H]sucrose uptake. Although NPC cells showed a relative accumulation of unesterified cholesterol and a sluggish esterification of LDL-derived cholesterol when exposed to LDL, these cells responded like normal fibroblasts with regard to their capacity to transport cholesterol from the cell surface into intracellular sites in response to sphingomyelin degradation. It therefore appears that NPC cells, in contrast to the impaired intracellular movement of lipoprotein-derived cholesterol, do not display a general impairment of cholesterol transport between the cell surface and the intracellular regulatory pool of cholesterol.     

Continuous microbial desulfurization of coal--application of a multistage slurry reactor and analysis of the interactions of microbial and chemical kinetics

Microbial desulfurization of coal by pyrite oxidizing bacterial enrichment cultures has been studied in air-agitated slurry reactors of 4- and 20-L volumes. Batch experiments showed that inoculation with an active bacterial culture is essential to minimize the lag phase, although a considerable number of pyrite oxidizing bacteria was found on the coal prior to desulfurization. For detailed investigations of kinetics, energy requirements, and technical applicability, a bioreactor equipment consisting of a cascade of eight stages was developed and operated continuously. Microbial desulfurization of coal-monitored by measuring the axial profile of dissolved iron concentration, real and maximum oxygen consumption rates, and cell concentration-at pulp densities to 30% was performed over a period of 200 days without any disturbances concerning the aeration system, fluidization, transport of solids and microbial growth. At a pulp density of 20%, a pyrite conversion of 68% was achieved after the third reactor stage at a total residence time of five days in the first three stages. The kinetics of pyrite degradation were found to be well described by a rate equation of first order in pyrite surface area concentration if the pyrite is directly accessible for microbial attack. Rate constants were determined to 0.48 mg pyrite/(cm(2) day) in the first and to 0.24 mg pyrite/(cm(2) day) in the following reactor stages. Kinetic models taking into account adsorption/desorption as well as growth kinetics failed to describe the observed reaction rates. However, a model treating pyrite degradation and microbial growth kinetics formalistically seems to be applicable when backmixing between the reactor stages can be avoided. The advantage of a multistage reactor in comparison to single-stage equipment was shown by calculation. To obtain a pyrite conversion of 68%, a three-stage reactor would require only 58% of the volume of single-stage equipment.Measurement of oxygen consumption rates proved to provide quickly and easily measurable parameters to observe microbial coal desulfurization in technical scale: the real oxygen consumption rate is correlated to the pyrite oxidation rate and the maximum oxygen consumption rate is correlated to the concentration of viable cells. The Y(o/s) coefficient for the amount of oxygen consumed per mass unit of pyrite oxygen was determined to approximately 0.33 in comparison to 1.0 which can be calculated from stoichiornetry. This could yet not be explained. Chemical leaching experiments as well as sulfur analyses of desulfurized coal samples showed that the microorganisms play the main role in degradation of pyrite from coal and that pyrite oxidation by ferric iron can be neglected.     

Purification of active human plasminogen activator inhibitor 1 from Escherichia coli. Comparison with natural and recombinant forms purified from eucaryotic cells

Plasminogen activator inhibitor 1 (PAI-1) inhibits both tissue-type plasminogen activator (tPA) and urokinase-type plasminogen activator (uPA) and, therefore, is an important regulator of plasminogen activation. We have developed eucaryotic and procaryotic expression systems for PAI-1 and characterized the recombinant glycosylated and non-glycosylated products, together with a non-recombinant natural control, produced in the histosarcoma cell line HT 1080. For eucaryotic expression, the PAI-1 cDNA was stably transfected into chinese hamster ovary cells (CHO cells), while procaryotic expression in Escherichia coli was examined after inserting the DNA sequence encoding the mature PAI-1 protein into an inducible expression vector. Recombinant PAI-1 from CHO cells was purified approximately 50-fold in two steps and was indistinguishable from natural PAI-1. Between 3% and 4% of total cellular protein in the procaryotic expression system consisted of PAI-1, from which it was purified approximately 30-fold, with yields of between 15% and 20%. This PAI-1 formed 1:1 complexes with uPA and also with the single- and two-chain forms of tPA. Kinetic analysis demonstrated that the procaryote-produced PAI-1 had an inhibitory activity towards all three forms of PA that resembled that of natural PAI-1 with association rate constants of approximately 10(7) M-1 s-1. In contrast to PAI-1 from eucaryotic cells, the PAI-1 from E. coli had an inherent activity equal to that of guanidine/HCl-activated natural PAI-1. The activity could not be increased by treatment with denaturants suggesting that the latent form of PAI-1 was absent. However, at 37 degrees C the procaryote-produced PAI-1 lost activity at the same rate as natural PAI-1, with approximately 50% of the activity remaining after 3 h. This activity could be partially restored by treatment with 4 M guanidine/HCl. E. coli-derived PAI-1, added to human plasma and fractionated by Sephacryl S-200 chromatography, eluted in two peaks that were similar to those obtained with guanidine-activated PAI-1 from eucaryotic cells, suggesting that it bound to the PAI-1-binding protein (vitronectin).     

Cytochrome o (bo) is a proton pump in Paracoccus denitrificans and Escherichia coli

Spheroplasts from aerobically grown wild-type Paracoccus denitrificans cells respire with succinate despite specific inhibition of the cytochrome bc1 complex by myxothiazol. Coupled to this activity, which involves only b-type cytochromes, there is translocation of 1.5-1.9 h+/e- across the cytoplasmic membrane. Similar H+ translocation ratios are observed during oxidation of ubiquinol in spheroplasts from aerobically grown mutants of Paracoccus lacking cytochrome c oxidase, or deficient in cytochrome c, as well as in a strain of E. coli from which cytochrome d was deleted. These observations show that the cytochrome o complex is a proton pump much like cytochrome aa3 to which it is structurally related.     

Conversion of disaccharides to 3-ketodisaccharides by nongrowing and immobilized cells ofAgrobacterium tumefaciens

High-performance liquid chromatography was used to estimate 3-ketolactose and 3-ketosucrose in cultures of agrobacteria. The activities of enzymes that convert the disaccharide substrate were evaluated during batch cultivation ofAgrobacterium tumefaciens on sucrose, maltose, and lactose. The highest activity of glucoside 3-dehydrogenase and a slight activity of disaccharide-hydrolyzing enzymes were found in cells grown on lactose. Nongrowing cells converted lactose to 3-ketolactose faster than immobilized cells did. Immobilization of cells into polysaccharide gels did not stabilize the activity of glucoside 3-dehydrogenase. Glutaraldehyde cross-linking of the cell content led to an inactivation of the respiratory chain but Fe³⁺ could be used as an electron acceptor. Cells treated with glutaraldehyde converted lactose faster than nongrowing ones but the activity of glucoside 3-dehydrogenase was not stable.