Reversible activation of succinate dehydrogenase

1. Treatment of particulate respiratory chain preparations in ways expected to raise or lower the concentration of endogenous soluble low-molecular-weight compounds respectively increased and diminished the capacity of succinate dehydrogenase to become activated reversibly and ‘spontaneously’ when preparations were diluted in tris acetate buffer and incubated at 37°. 2. Addition of critically low concentrations of recognized activators to preparations that failed to undergo reversible ‘spontaneous’ activation when incubated at 1mg. of protein/ml. conferred on them the capacity to do so. 3. Preparations with a diminished tendency to undergo reversible ‘spontaneous’ activation had an increased tendency to become irreversibly inactivated on prolonged incubation at 1mg. of protein/ml. in tris acetate. 4. Extraction procedures designed to demonstrate the presence of possible endogenous activators in enzyme preparations failed to reveal a single substance to which such a role could be conclusively attributed. A mixture of compounds was found, however, including certain amino acids that have been shown to act as activators. It is questionable whether these compounds would be present at sufficiently high concentrations to act as activators when enzyme preparations are diluted to 1mg. of protein/ml. 5. Despite the failure to demonstrate conclusively the presence of endogenous activators, the balance of evidence appears to favour the hypothesis that reversible ‘spontaneous’ activation of these preparations can best be explained by the presence of such substances, and a scheme describing the mechanism of activation and deactivation of succinate dehydrogenase is discussed in relation to these and other observations.

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Proteolytic and peroxidatic reactions of commercial horseradish peroxidase with myelin basic protein

Biochemical Journal ◽

10.1042/bj1690567 ◽

1978 ◽

Vol 169 (3) ◽

pp. 567-575 ◽

Cited By ~ 9

Author(s):

Wendy Cammer ◽

Lesley Z. Bieler ◽

William T. Norton

Keyword(s):

Horseradish Peroxidase ◽

Myelin Basic Protein ◽

Basic Protein ◽

Protein A ◽

Low Molecular Weight ◽

Basic Proteins ◽

Molecular Weights ◽

Low Concentrations ◽

High Concentrations ◽

A Minor

Degradation of myelin basic protein during incubations with high concentrations of horseradish peroxidase has been demonstrated [Johnson & Cammer (1977) J. Histochem. Cytochem.25, 329–336]. Possible mechanisms for the interaction of the basic protein with peroxidase were investigated in the present study. Because the peroxidase samples previously observed to degrade basic protein were mixtures of isoenzymes, commercial preparations of the separated isoenzymes were tested, and all three degraded basic protein, but to various extents. Three other basic proteins, P2 protein from peripheral nerve myelin, lysozyme and cytochrome c, were not degraded by horseradish peroxidase under the same conditions. Inhibitor studies suggested a minor peroxidatic component in the reaction. Therefore the peroxidatic reaction with basic protein was studied by using low concentrations of peroxidase along with H2O2. Horseradish peroxidase plus H2O2 caused the destruction of basic protein, a reaction inhibited by cyanide, azide, ferrocyanide, tyrosine, di-iodotyrosine and catalase. Lactoperoxidase plus H2O2 and myoglobin plus H2O2 were also effective in destroying the myelin basic protein. Low concentrations of horseradish peroxidase plus H2O2 were not active against other basic proteins, but did destroy casein and fibrinogen. Although high concentrations of peroxidase alone degraded basic protein to low-molecular-weight products, suggesting the operation of a proteolytic enzyme contaminant in the absence of H2O2, incubations with catalytic concentrations of peroxidase in the presence of H2O2 converted basic protein into products with high molecular weights. Our data suggest a mechanism for the latter, peroxidatic, reaction where polymers would form by linking the tyrosine side chains in basic-protein molecules. These data show that the myelin basic protein is unusually susceptible to peroxidatic reactions.

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Observed differences in dextran and polyvinylpyrrolidone as rouleaux-inducing agents

Canadian Journal of Physiology and Pharmacology ◽

10.1139/y80-046 ◽

1980 ◽

Vol 58 (3) ◽

pp. 271-274 ◽

Cited By ~ 5

Author(s):

Lionel S. Sewchand ◽

Dieter Bruckschwaiger

Keyword(s):

Red Blood Cells ◽

Blood Cells ◽

Animal Species ◽

Critical Concentration ◽

Rbc Membrane ◽

Low Concentrations ◽

High Concentrations ◽

Induced Aggregation ◽

Do So

The effectiveness of dextran fractions (Dx-500, Dx-100, Dx-70) and polyvinylpyrrolidone (PVP-360, PVP-40) in inducing aggregation of red blood cells (RBC) was studied in a nonflowing environment. The Dx fractions, at low concentrations, induced aggregation of human RBC but failed to do so at high concentrations (concentrations greater than 70 g/L). The effect was different on RBC from animal species (cat and rabbit); aggregation increased steadily with the Dx concentration and there was no critical concentration beyond which Dx failed to induce aggregation. The PVP was found to be very effective, at all concentrations, in inducing aggregation of RBC from both human and the animal species. These results have a twofold significance: (1) they suggest that Dx and PVP, both neutral polymers, interact differently with the human RBC membrane; and (2) the association of Dx with the human RBC membrane is different from that with cat and rabbit RBC membranes.

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Justification of bioactivated grain triticale use in alcohol production

Food Processing Techniques and Technology ◽

10.21603/2074-9414-2018-1-57-65 ◽

2019 ◽

Vol 48 (1) ◽

pp. 57-65

Author(s):

Анна Миронцева ◽

Anna Mirontseva ◽

Елена Цед ◽

Elena Tsed ◽

Светлана Волкова ◽

...

Keyword(s):

Molecular Weight ◽

Chemical Composition ◽

Ethyl Alcohol ◽

Yeast Cells ◽

Low Molecular Weight ◽

Technological Parameters ◽

Alcohol Production ◽

Enzyme Preparations ◽

Green Mass ◽

Low Molecular Weight Compounds

Triticale accounts for the biggest share in gross processing and state procurement of grain in Belarussian production of alcohol. The main difficulty in its processing is the formation of viscous technological fluids due to the presence of non-starch polysaccharides in its chemical composition. All measures taken to solve the problem come down to the selection of the efficient enzyme preparations, hydrolyzing grain polymers into low molecular weight compounds, which have the ability to be disposed by the yeast cells and form the ethyl alcohol. But grain own enzymes are not involved. It is possible to solve the problem by means of biological activation, which will activate grain enzyme systems and partially hydrolyze grain polymers into low molecular weight compounds. The article considers general and special technological parameters of six cultivars of triticale selected in the Republic of Belarus: Antos, Kastus, Dubrava, Run, Prometheus, Impulse. The authors determined that the most promising cultivars for bioactivation and food grade ethyl alcohol production are Antos and Dubrava. The authors explored the possibility of using hot soaking of triticale grain for the biological activation. They also showed the advantages of introduction of amaranth green mass in the amount of 8% during hot soaking for the reduction of grain microbiological contamination. They studied the changes in the technological properties of triticale cultivars Antos and Dubrava after the bioactivation with the green mass of amaranth. The authors determined that grain microbiological characteristics improved, the activity of grain enzymes increased, proportion of low molecular weight compounds in the chemical composition increased. They studied the processes taking place during wort and mash production from the bioactivated triticale grain. The authors showed that the processing of bioactivated triticale grain resulted in the production of wort with higher concentration of dry matter which allowed to increase the ethanol content in the mature mash produced from triticale cultivar Antos by 19.5% and from the triticale cultivar Dubrava by 29.3% and reduce the total quantity of the main impurities in distillates.

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HIGH CONCENTRATIONS OF HEPARIN ARE MORE INHIBITORY TO PLATE- AGGREGATION IN-VITRO THAN ARE LOW MOLECULAR WEIGHT HEPARINS AND HEPARINOIDS AT THE SAME CONCENTRATION

10.1055/s-0038-1644186 ◽

1987 ◽

Author(s):

H Messmore ◽

B Griffin ◽

J Seghatchian ◽

E Coyne

Keyword(s):

Molecular Weight ◽

Heparan Sulfate ◽

Dermatan Sulfate ◽

Platelet Rich Plasma ◽

Inhibitory Effect ◽

Low Molecular Weight ◽

Low Concentrations ◽

High Concentrations ◽

Induced Aggregation

Other investigators have shown that heparin in the usual therapeutic range (0.1-0.5 units/ml) has an enhancing effect on ADP aggregation and an inhibitory effect on collagen and thrombin induced aggregation. The effects of low molecular weight heparin (LMWH)and heparinoids (dermatan sulfate, heparan sulfate) on platelet aggregation have not been as extensivelystudied. We have utilized citrated platelet rich plasma (3.2%citrate-whole blood 1:9) drawn in plastic and adjusted to a final platelet count of 250,000/ul. A Bio-Data 4 channgl aggregometer was utilized with constantstirring at 37 C. The reaction was allowed to run for 20 minutes. Platelet rich plasma was supplemented 1:9 with saline or heparin and various agonists were then added ifno aggregation occurred. ADP, collagen, thrombin, ristocetin and serum from patients with heparin inudced thrombocytopenia (HIT) were utilized as agonists. Heparin was substituted at concentrations of 0.1 to 500 units per ml and various LMWH and heparinoids were substituted in equivalent anti-Xa or gravimetric concentrations. At low concentrations no inhibitory effect on any ofthe agonists was observed with any of the heparins or heparinoids. At concentrations of heparin of 100 u/ml or greater, all agonists were inhibited. At equivalent concentrations of five different LMWH (Cy 216, Cy 222, Pk 10169, Kabi 2165 and pentasaccharide) inhibition did notoccur at all or at very high concentions only. Dermatan sulfate and heparan sulfate inhibited only at high concentrations. HIT serum could not aggregate platelets with dermatan sulfate or pentasaccharide atany concentrations, but it was a good agonist with the other heparins and heparinoids.

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Complex-formation between reduced xanthine oxidase and purine substrates demonstrated by electron paramagnetic resonance

Biochemical Journal ◽

10.1042/bj1140735 ◽

1969 ◽

Vol 114 (4) ◽

pp. 735-742 ◽

Cited By ~ 33

Author(s):

Frances M. Pick ◽

R C Bray

Keyword(s):

Electron Paramagnetic Resonance ◽

Xanthine Oxidase ◽

Active Site ◽

Paramagnetic Resonance ◽

Freezing Method ◽

Low Concentrations ◽

Appearance Rate ◽

High Concentrations ◽

Electron Paramagnetic ◽

Do So

The origin of the Rapid molybdenum electron-paramagnetic-resonance signals, which are obtained on reducing xanthine oxidase with purine or with xanthine, and whose parameters were measured by Bray & Vänngård (1969), was studied. It is concluded that these signals represent complexes of reduced enzyme with substrate molecules. Xanthine forms one complex at high concentrations and a different one at low concentrations. Purine forms a complex indistinguishable from the low-concentration xanthine complex. There are indications that some other substrates also form complexes, but uric acid, a reaction product, does not appear to do so. The possible significance of the complexes in the catalytic cycle of the enzyme is discussed and it is suggested that they represent substrate molecules bound at the reduced active site, waiting their turn to react there, when the enzyme has been reoxidized. Support for this role for the complexes was deduced from experiments in which frozen samples of enzyme–xanthine mixtures, prepared by the rapid-freezing method, were warmed until the signals began to change. Under these conditions an increase in amplitude of the Very Rapid signal took place. Data bearing on the origin of the Slow molybdenum signal are also discussed. This signal disappears only slowly in the presence of oxygen, and its appearance rate is unaffected by change in the concentration of dithionite. It is concluded that, like other signals from the enzyme, it is due to Mov but that a slow change of ligand takes place before it is seen. The Slow species, like the Rapid, seems capable of forming complexes with purines.

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Effects of Chitosan onCandida albicans: Conditions for Its Antifungal Activity

BioMed Research International ◽

10.1155/2013/527549 ◽

2013 ◽

Vol 2013 ◽

pp. 1-15 ◽

Cited By ~ 52

Author(s):

Antonio Peña ◽

Norma Silvia Sánchez ◽

Martha Calahorra

Keyword(s):

Yeast Cells ◽

Low Molecular Weight ◽

Extracellular Acidification ◽

Pathogenic Yeast ◽

Inhibition Of Growth ◽

Low Concentrations ◽

Negative Surface ◽

Negative Surface Charge ◽

High Concentrations ◽

Transmembrane Potential Difference

The effects of low molecular weight (96.5 KDa) chitosan on the pathogenic yeastCandida albicanswere studied. Low concentrations of chitosan, around 2.5 to 10 μg·mL−1produced (a) an efflux of K+and stimulation of extracellular acidification, (b) an inhibition of Rb+uptake, (c) an increased transmembrane potential difference of the cells, and (d) an increased uptake of Ca2+. It is proposed that these effects are due to a decrease of the negative surface charge of the cells resulting from a strong binding of the polymer to the cells. At higher concentrations, besides the efflux of K+, it produced (a) a large efflux of phosphates and material absorbing at 260 nm, (b) a decreased uptake of Ca2+, (c) an inhibition of fermentation and respiration, and (d) the inhibition of growth. The effects depend on the medium used and the amount of cells, but in YPD high concentrations close to 1 mg·mL−1are required to produce the disruption of the cell membrane, the efflux of protein, and the growth inhibition. Besides the findings at low chitosan concentrations, this work provides an insight of the conditions required for chitosan to act as a fungistatic or antifungal and proposes a method for the permeabilization of yeast cells.

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Nutrient-Poor Breeding Substrates of Ambrosia Beetles Are Enriched With Biologically Important Elements

Frontiers in Microbiology ◽

10.3389/fmicb.2021.664542 ◽

2021 ◽

Vol 12 ◽

Author(s):

Maximilian Lehenberger ◽

Nina Foh ◽

Axel Göttlein ◽

Diana Six ◽

Peter H. W. Biedermann

Keyword(s):

Essential Elements ◽

Trypodendron Lineatum ◽

Ambrosia Beetles ◽

Ambrosia Fungi ◽

Low Concentrations ◽

Xylem Tissue ◽

Fungal Associates ◽

High Concentrations ◽

First Time ◽

Do So

Fungus-farming within galleries in the xylem of trees has evolved independently in at least twelve lineages of weevils (Curculionidae: Scolytinae, Platypodinae) and one lineage of ship-timber beetles (Lymexylidae). Jointly these are termed ambrosia beetles because they actively cultivate nutritional “ambrosia fungi” as their main source of food. The beetles are obligately dependent on their ambrosia fungi as they provide them a broad range of essential nutrients ensuring their survival in an extremely nutrient-poor environment. While xylem is rich in carbon (C) and hydrogen (H), various elements essential for fungal and beetle growth, such as nitrogen (N), phosphorus (P), sulfur (S), potassium (K), calcium (Ca), magnesium (Mg), and manganese (Mn) are extremely low in concentration. Currently it remains untested how both ambrosia beetles and their fungi meet their nutritional requirements in this habitat. Here, we aimed to determine for the first time if galleries of ambrosia beetles are generally enriched with elements that are rare in uncolonized xylem tissue and whether these nutrients are translocated to the galleries from the xylem by the fungal associates. To do so, we examined natural galleries of three ambrosia beetle species from three independently evolved farming lineages, Xyleborinus saxesenii (Scolytinae: Xyleborini), Trypodendron lineatum (Scolytinae: Xyloterini) and Elateroides dermestoides (Lymexylidae), that cultivate unrelated ambrosia fungi in the ascomycete orders Ophiostomatales, Microascales, and Saccharomycetales, respectively. Several elements, in particular Ca, N, P, K, Mg, Mn, and S, were present in high concentrations within the beetles’ galleries but available in only very low concentrations in the surrounding xylem. The concentration of elements was generally highest with X. saxesenii, followed by T. lineatum and E. dermestoides, which positively correlates with the degree of sociality and productivity of brood per gallery. We propose that the ambrosia fungal mutualists are translocating essential elements through their hyphae from the xylem to fruiting structures they form on gallery walls. Moreover, the extremely strong enrichment observed suggests recycling of these elements from the feces of the insects, where bacteria and yeasts might play a role.

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Neutrophil Elastase Potentiates Cathepsin G-lnduced Platelet Activation

Thrombosis and Haemostasis ◽

10.1055/s-0038-1646319 ◽

1992 ◽

Vol 68 (05) ◽

pp. 570-576 ◽

Cited By ~ 20

Author(s):

Mary A Selak

Keyword(s):

Neutrophil Elastase ◽

Cell Activation ◽

Thromboxane A2 ◽

Creatine Phosphate ◽

Dense Granule ◽

Cathepsin G ◽

Dependent Manner ◽

Concentration Dependent Manner ◽

Low Concentrations ◽

High Concentrations

SummaryWe have previously demonstrated that human neutrophil cathepsin G is a strong platelet agonist that binds to a specific receptor. This work describes the effect of neutrophil elastase on cathepsin G-induced platelet responses. While platelets were not activated by high concentrations of neutrophil elastase by itself, elastase enhanced aggregation, secretion and calcium mobilization induced by low concentrations of cathepsin G. Platelet aggregation and secretion were potentiated in a concentration-dependent manner by neutrophil elastase with maximal responses observable at 200 nM. Enhancement was observed when elastase was preincubated with platelets for time intervals of 10–60 s prior to addition of a low concentration of cathepsin G and required catalytically-active elastase since phenylmethanesulphonyl fluoride-inhibited enzyme failed to potentiate cell activation. Neutrophil elastase potentiation of platelet responses induced by low concentrations of cathepsin G was markedly inhibited by creatine phosphate/creatine phosphokinase and/or indomethacin, indicating that the synergism between elastase and cathepsin G required the participation of ADP and thromboxane A2. On the other hand, platelet responses were not attenuated by the PAF antagonist BN 52021, signifying that PAF-acether did not play a role in elastase potentiation. At higher concentrations porcine pancreatic elastase exhibits similar effects to neutrophil elastase, demonstrating that the effect of elastase was not unique to the neutrophil protease. While neutrophil elastase failed to alter the ability of cathepsin G to hydrolyze a synthetic chromogenic substrate, preincubation of platelets with elastase increased the apparent affinity of cathepsin G binding to platelets. In contrast to their effect on cathepsin G-induced platelet responses, neither neutrophil nor pancreatic elasatse potentiated aggregation or dense granule release initiated by ADP, PAF-acether, arachidonic acid or U46619, a thromboxane A2 mimetic. Moreover, unlike its effect on cathepsin G, neutrophil elastase inhibited thrombin-induced responses. The current observations demonstrate that elastase can potentiate platelet responses mediated by low concentrations of cathepsin G, suggesting that both enzymes may function synergistically to activate platelets under conditions where neutrophil degranulation occurs.

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In Vitro Effects of Ethanol on Rabbit Platelet Aggregation, Secretion of Granule Contents, and Cyclic AMP Levels in the Presence of Prostacyclin

Thrombosis and Haemostasis ◽

10.1055/s-0038-1646570 ◽

1989 ◽

Vol 61 (02) ◽

pp. 254-258 ◽

Cited By ~ 21

Author(s):

Margaret L Rand ◽

Peter L Gross ◽

Donna M Jakowec ◽

Marian A Packham ◽

J Fraser Mustard

Keyword(s):

Cyclic Amp ◽

Inhibitory Effect ◽

Rabbit Platelet ◽

Inhibitory Effects ◽

Low Concentrations ◽

Rabbit Platelets ◽

High Concentrations ◽

In Vitro Effects ◽

Aggregation Of Platelets

SummaryEthanol, at physiologically tolerable concentrations, inhibits platelet responses to low concentrations of collagen or thrombin, but does not inhibit responses of washed rabbit platelets stimulated with high concentrations of ADP, collagen, or thrombin. However, when platelet responses to high concentrations of collagen or thrombin had been partially inhibited by prostacyclin (PGI2), ethanol had additional inhibitory effects on aggregation and secretion. These effects were also observed with aspirin- treated platelets stimulated with thrombin. Ethanol had no further inhibitory effect on aggregation of platelets stimulated with ADP, or the combination of ADP and epinephrine. Thus, the inhibitory effects of ethanol on platelet responses in the presence of PGI2 were very similar to its inhibitory effects in the absence of PGI2, when platelets were stimulated with lower concentrations of collagen or thrombin. Ethanol did not appear to exert its inhibitory effects by increasing cyclic AMP above basal levels and the additional inhibitory effects of ethanol in the presence of PGI2 did not appear to be brought about by further increases in platelet cyclic AMP levels.

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Aggregation of Cat Platelets in Vitro

Thrombosis and Haemostasis ◽

10.1055/s-0038-1654191 ◽

1970 ◽

Vol 23 (03) ◽

pp. 601-620 ◽

Cited By ~ 14

Author(s):

Th. B Tschopp

Keyword(s):

Adenosine Monophosphate ◽

Blood Collection ◽

Base Line ◽

Reversible Aggregation ◽

Low Concentrations ◽

Irreversible Aggregation ◽

High Concentrations ◽

Two Phases ◽

Improved Technique

SummaryAggregation of cat platelets in the citrated plasma is examined by means of Born’s absorptiometer. A marked tendency of the platelets of this species to spontaneous aggregation necessitated first of all the development of an improved technique of blood collection.A hypothesis according to which 5-HT is released from the platelets, explains the absence of oscillations on the base line of the absorptiometer, the absence of platelet swelling, when ADP is added, and the effect of stirring on the aggregation curves in cat PRP. The average volume of cat platelets amounts to 10.46 μ3 when directly fixed in the blood, when fixed from PRP to 12.17 μ3, when fixed from stirred PRP to 13.51 μ3.In low concentrations (0.3-2 μM) ADP produce reversible aggregation; in narrowly restricted, individually dissimilar mean concentrations irreversible aggregation in two phases and in high concentrations, irreversible aggregation in one phase. Like ADP serotonin produces 2 phase irreversible aggregation in concentrations of 3-10 μM, but unlike ADP, the aggregation velocity decreases again with high 5-HT concentrations (>100 μM). Adrenaline does not produce aggregation and it is likely that adenosine and adenosine monophosphate inhibit the aggregation by serotonin but not by ADP. Species differences in the aggregation of human, rabbit and cat platelets are discussed.

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