Effects of adenine nucleotides on rice-root adenosine triphosphate sulphurylase activity in vitro

F D Onajobi

doi:10.1042/bj1490301

Effects of adenine nucleotides and phosphate on adenosine triphosphate sulphurylase from Anabaena cylindrica

Biochemical Journal ◽

10.1042/bj1640161 ◽

1977 ◽

Vol 164 (1) ◽

pp. 161-167 ◽

Cited By ~ 9

Author(s):

S K Sawhney ◽

D J D Nicholas

Keyword(s):

Enzyme Activity ◽

Energy Metabolism ◽

Adenosine Triphosphate ◽

Adenine Nucleotides ◽

Anabaena Cylindrica ◽

Sulphate Assimilation ◽

Atp Sulphurylase

Production of adenosine 5'-[35S]sulphatophosphate by a partially purified ATP sulphurylase from Anabaena cylindrica was inhibited by AMP, ADP and P1. Decreases in enzyme activity in the presence of these inhibitors were reversed by increasing the concentrations of ATP. The adenine nucleotides inhibited the enzyme competitively with respect to ATP. In the presence of P1, ATP showed a positive co-operative effect on enzyme activity. The inhibition by P1 was enhanced by increasing concentrations of MG2+. The effects of the adenine nucleotides and the interaction of P1 and Mg2+ on ATP sulphurylase activity are discussed in relation to the regulation of sulphate assimilation via the energy metabolism of the alga.

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Binding of Tissue Plasminogen Activator to Vascular Grafts

Thrombosis and Haemostasis ◽

10.1055/s-0038-1646541 ◽

1989 ◽

Vol 61 (01) ◽

pp. 131-136 ◽

Cited By ~ 8

Author(s):

Richard A Harvey ◽

Hugh C Kim ◽

Jonathan Pincus ◽

Stanley Z Trooskin ◽

Josiah N Wilcox ◽

...

Keyword(s):

Plasminogen Activator ◽

Tissue Plasminogen Activator ◽

Fibrinolytic Activity ◽

Polymer Surface ◽

Enzymic Activity ◽

Vascular Prostheses ◽

Chemically Modified ◽

Insoluble Surfactant ◽

Tissue Plasminogen

SummaryTissue plasminogen activator labeled with radioactive iodine (125I-tPA) was immobilized on vascular prostheses chemically modified with a thin coating of water-insoluble surfactant, tridodecylmethylammonium chloride (TDM AC). Surfactant- treated Dacron, polytetrafluoroethylene (PTFE), silastic, polyethylene and polyurethane bound appreciable amounts of 125I- tPA (5-30 μg 125I-tPA/cm2). Upon exposure to human plasma, the amount of 125I-tPA bound to the surface shows an initial drop during the first hour of incubation, followed by a slower, roughly exponential release with a t½ of appoximately 75 hours. Prostheses containing bound tPA show fibrinolytic activity as measured both by lysis of clots formed in vitro, and by hydrolysis of a synthetic polypeptide substrate. Prior to incubation in plasma, tPA bound to a polymer surface has an enzymic activity similar, if not identical to that of the native enzyme in buffered solution. However, exposure to plasma causes a decrease in the fibrinolytic activity of both bound tPA and enzyme released from the surface of the polymer. These data demonstrate that surfactant-treated prostheses can bind tPA, and that these chemically modified devices can act as a slow-release drug delivery system with the potential for reducing prosthesis-induced thromboembolism.

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Loss of 111Indium as indicator of platelet injury

Blood ◽

10.1182/blood.v58.2.350.350 ◽

1981 ◽

Vol 58 (2) ◽

pp. 350-353 ◽

Cited By ~ 18

Author(s):

JH Joist ◽

RK Baker

Keyword(s):

Small Molecules ◽

Adenine Nucleotides ◽

Human Platelets ◽

Metabolic Energy ◽

Platelet Factor ◽

Platelet Protein ◽

Threshold Rate ◽

Immune Injury ◽

Triton X

Abstract We previously demonstrated that platelets can be labeled with 111Inoxine with high labeling efficiency and that 111In is not liberated from labeled platelets during the platelet release reaction or prolonged in vitro storage. In view of these findings, we examined the potential usefulness of loss of 111In from labeled platelets as an indicator or platelet damage by comparing the loss of 111In with that of 51Cr and LDH (in some experiments also with platelet factor 3 availability) under different conditions of platelet injury. When washed human platelets labeled with either 51Cr-chromate or 111In-oxine were exposed to increasing concentrations of detergents (Triton X-100, lysolecithin), threshold, rate, and extent of loss of 111In, 51Cr and, LDH were similar. In contrast, when labeled platelets were depleted of metabolic energy by incubation in glucose-free Tyrode albumin solution or glucose-depleted plasma in the presence of antimycin A and 2-deoxy-D- glucose, loss of 51Cr (and PF3a) occurred earlier and progressed at a faster rate than that of 111In or LDH. Similar results were obtained when platelets were exposed to increasing concentrations of PlA1 antibody, causing complement-mediated immune injury. The findings indicate that with certain agents that cause rapid platelet disruption (lysis), different platelet constituents are lost at similar rates. However, under conditions of more subtle or slowly progressive platelet injury, small molecules such as adenine nucleotides (51Cr) may escape earlier and at faster rates than larger molecules such as LDH or 111In- binding platelet protein. Thus, neither 111In loss nor LDH loss appear to be suitable indicators for sublytic or prelytic platelet injury.

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Localization of ferrochelatase in Plasmodium falciparum

Biochemical Journal ◽

10.1042/bj20040952 ◽

2004 ◽

Vol 384 (2) ◽

pp. 429-436 ◽

Cited By ~ 35

Author(s):

Sundaramurthy VARADHARAJAN ◽

B. K. Chandrashekar SAGAR ◽

Pundi N. RANGARAJAN ◽

Govindarajan PADMANABAN

Keyword(s):

Plasmodium Falciparum ◽

De Novo ◽

Enzymic Activity ◽

Malarial Parasite ◽

Parasite Genome ◽

Marker Proteins ◽

Parasite Plasmodium ◽

Theoretical Predictions ◽

Parasite Plasmodium Falciparum

Our previous studies have demonstrated de novo haem biosynthesis in the malarial parasite (Plasmodium falciparum and P. berghei). It has also been shown that the first enzyme of the pathway is the parasite genome-coded ALA (δ-aminolaevulinate) synthase localized in the parasite mitochondrion, whereas the second enzyme, ALAD (ALA dehydratase), is accounted for by two species: one species imported from the host red blood cell into the parasite cytosol and another parasite genome-coded species in the apicoplast. In the present study, specific antibodies have been raised to PfFC (parasite genome-coded ferrochelatase), the terminal enzyme of the haem-biosynthetic pathway, using recombinant truncated protein. With the use of these antibodies as well as those against the hFC (host red cell ferrochelatase) and other marker proteins, immunofluorescence studies were performed. The results reveal that P. falciparum in culture manifests a broad distribution of hFC and a localized distribution of PfFC in the parasite. However, PfFC is not localized to the parasite mitochondrion. Immunoelectron-microscopy studies reveal that PfFC is indeed localized to the apicoplast, whereas hFC is distributed in the parasite cytoplasm. These results on the localization of PfFC are unexpected and are at variance with theoretical predictions based on leader sequence analysis. Biochemical studies using the parasite cytosolic and organellar fractions reveal that the cytosol containing hFC accounts for 80% of FC enzymic activity, whereas the organellar fraction containing PfFC accounts for the remaining 20%. Interestingly, both the isolated cytosolic and organellar fractions are capable of independent haem synthesis in vitro from [4-14C]ALA, with the cytosol being three times more efficient compared with the organellar fraction. With [2-14C]glycine, most of the haem is synthesized in the organellar fraction. Thus haem is synthesized in two independent compartments: in the cytosol, using the imported host enzymes, and in the organellar fractions, using the parasite genome-coded enzymes.

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All1371 is a polyphosphate-dependent glucokinase in Anabaena sp. PCC 7120

Microbiology ◽

10.1099/mic.0.081836-0 ◽

2014 ◽

Vol 160 (12) ◽

pp. 2807-2819 ◽

Cited By ~ 11

Author(s):

Friederike Klemke ◽

Gabriele Beyer ◽

Linda Sawade ◽

Ali Saitov ◽

Thomas Korte ◽

...

Keyword(s):

Divalent Cations ◽

Enzymic Activity ◽

Phosphoryl Group ◽

Nitrogen Deprivation ◽

Ping Pong ◽

Nucleoside Triphosphates ◽

Anabaena Sp ◽

Pcc 7120 ◽

Promoter Studies

The polyphosphate glucokinases can phosphorylate glucose to glucose 6-phosphate using polyphosphate as the substrate. ORF all1371 encodes a putative polyphosphate glucokinase in the filamentous heterocyst-forming cyanobacterium Anabaena sp. PCC 7120. Here, ORF all1371 was heterologously expressed in Escherichia coli, and its purified product was characterized. Enzyme activity assays revealed that All1371 is an active polyphosphate glucokinase that can phosphorylate both glucose and mannose in the presence of divalent cations in vitro. Unlike many other polyphosphate glucokinases, for which nucleoside triphosphates (e.g. ATP or GTP) act as phosphoryl group donors, All1371 required polyphosphate to confer its enzymic activity. The enzymic reaction catalysed by All1371 followed classical Michaelis–Menten kinetics, with k cat = 48.2 s−1 at pH 7.5 and 28 °C and K M = 1.76 µM and 0.118 mM for polyphosphate and glucose, respectively. Its reaction mechanism was identified as a particular multi-substrate mechanism called the ‘bi-bi ping-pong mechanism’. Bioinformatic analyses revealed numerous polyphosphate-dependent glucokinases in heterocyst-forming cyanobacteria. Viability of an Anabaena sp. PCC 7120 mutant strain lacking all1371 was impaired under nitrogen-fixing conditions. GFP promoter studies indicate expression of all1371 under combined nitrogen deprivation. All1371 might play a substantial role in Anabaena sp. PCC 7120 under these conditions.

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The Protective Effect of Protein Kinase C and Adenosine Triphosphate-Sensitive Potassium Channel Agonists Against Inflammation in Rat Endothelium and Vascular Smooth Muscle In Vitro and In Vivo

Anesthesia & Analgesia ◽

10.1213/01.ane.0000124679.86069.ad ◽

2004 ◽

pp. 556-561 ◽

Cited By ~ 4

Author(s):

Roman V. Plachinta ◽

Manuela J. M. de Klaver ◽

John K. Hayes ◽

George F. Rich

Keyword(s):

Smooth Muscle ◽

Protein Kinase C ◽

Protein Kinase ◽

Vascular Smooth Muscle ◽

Protective Effect ◽

Potassium Channel ◽

Adenosine Triphosphate ◽

Kinase C

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Protein synthesis in chloroplasts. Characteristics and products of protein synthesis in vitro in etioplasts and developing chloroplasts from pea leaves

Biochemical Journal ◽

10.1042/bj1460675 ◽

1975 ◽

Vol 146 (3) ◽

pp. 675-685 ◽

Cited By ~ 51

Author(s):

S G Siddell ◽

R J Ellis

Keyword(s):

Energy Source ◽

Protein Synthesis ◽

Large Subunit ◽

Sodium Dodecyl ◽

Supernatant Fraction ◽

Pisum Sativum L ◽

Fraction I ◽

Plastid Ribosomes

The function of plastid ribosomes in pea (Pisum sativum L.) was investigated by characterizing the products of protein synthesis in vitro in plastids isolated at different stages during the transition from etioplast to chloroplast. Etioplasts and plastids isolated after 24, 48 and 96h of greening in continuous white light, use added ATP to incorporate labelled amino acids into protein. Plastids isolated from greening leaves can also use light as the source of energy for protein synthesis. The labelled polypeptides synthesized in isolated plastids were analysed by electrophoresis in sodium dodecyl sulphate-ureapolyacrylamide gels. Six polypeptides are synthesized in etioplasts with ATP as energy source. Only one of these polypeptides is present in a 150 000g supernatant fraction. This polypeptide has been identified as the large subunit of Fraction I protein (3-phospho-D-glycerate carboxylyase EC 4.1.1.39) by comparing the tryptic ‘map’ of its L-(35S)methionine-labelled peptides with the tryptic ‘map’ of large subunit peptides from Fraction I labelled with L-(35S)methionine in vivo. The same gel pattern of six polypeptides is seen when plastids isolated from greening leaves are incubated with either added ATP or light as the energy source. However, the rates of synthesis of particular polypeptides are different in plastids isolated at different stages of the etioplast to chloroplast transition. The results support the idea that plastid ribosomes synthesize only a small number of proteins, and that the number and molecular weight of these proteins does not alter during the formation of chloroplasts from etioplasts.

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THE INTERACTION OF ENZYMES AND HORMONES

PEDIATRICS ◽

10.1542/peds.26.3.476 ◽

1960 ◽

Vol 26 (3) ◽

pp. 476-481

Author(s):

Abraham White

Keyword(s):

Direct Effect ◽

Chemical Reactions ◽

Elevated Temperatures ◽

Enzyme System ◽

Enzymic Activity ◽

Hormone Interaction ◽

Indirect Influence ◽

Rare Exception ◽

Hormonal Action

The majority of living forms depend for their functioning upon two classes of biocatalysts, the enzymes and the hormones. These biocatalysts permit the diverse chemical reactions of the organism to proceed at 38°C with a specificity and at rates frequently unattainable in vitro at elevated temperatures with similar reactants. The physiologic importance of enzymes and hormones is evident not only under normal circumstances, but is reflected clinically in the diverse descriptions of errors of metabolism, due to lack or deficiency of one or more enzymes, and the numerous hypo- and hyperfunctioning states resulting from imbalance of hormonal supply. Inasmuch as both enzymes and hormones function, with rare exception, to accelerate the rates of processes in cells, investigators have sought possible interrelationships and interactions of enzymes and hormones, particularly as a basis for the mechanism of hormonal action. It has seemed logical to hypothesize that hormones, while not essential for reactions to proceed but nevertheless affecting the rates of reactions, may function by altering either the concentration or activity of the prime cellular catalysts, the enzymes. This proposed influence of hormones on enzymic activity might be a primary, direct effect achieved by the hormone participating as an integral part of an enzyme system, or an indirect influence based upon the hormone altering the concentration of available enzyme and/or substrate utilized by a particular enzyme. It is the purpose of this presentation to describe a relatively few, but better defined, examples of the more direct relationships of enzymes and hormones. Five examples of enzyme-hormone interaction will be presented, based on the criterion that an effect of the hormone has been demonstrated on addition of the hormone in vitro to a purifled, or partially purified, enzyme system.

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Hepatic metabolism of vitamin D3 in streptozotocin-induced diabetic rat

Acta Endocrinologica ◽

10.1530/acta.0.0930346 ◽

1980 ◽

Vol 93 (3) ◽

pp. 346-350 ◽

Cited By ~ 5

Author(s):

Sorel Sulimovici ◽

Martin S. Roginsky

Keyword(s):

Vitamin D ◽

Liver Microsomes ◽

Hepatic Metabolism ◽

Enzymic Activity ◽

Diabetic Rat ◽

Hydroxyvitamin D ◽

Streptozotocin Induced Diabetes ◽

25 Hydroxyvitamin D ◽

Isolated Liver

Abstract. The effect of streptozotocin-induced diabetes on the in vitro conversion of vitamin D3 to 25-hydroxyvitamin D3 (25-OHD3) by isolated liver microsomes from rachitic rats was examined. Enzymic activity was significantly less than that observed in control animals (P< 0.001). Administration of insulin restored activity almost to control values. These findings provide evidence that diabetes in this animal model produces alterations in the metabolism of vitamin D.

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Induction and properties of cytoplasmic factor(s) which enhance nuclear nonhistone protein phosphorylation in lymphocytes stimulated by anti-Ig.

Journal of Experimental Medicine ◽

10.1084/jem.146.3.653 ◽

1977 ◽

Vol 146 (3) ◽

pp. 653-664 ◽

Cited By ~ 11

Author(s):

Y Nishizawa ◽

T Kishimoto ◽

H Kikutani ◽

Y Yamamura

Keyword(s):

Protein Kinase ◽

Protein Phosphorylation ◽

Adenosine Triphosphate ◽

Active Substance ◽

Nuclear Proteins ◽

Concomitant Increase ◽

Cytoplasmic Factor ◽

Nonhistone Protein ◽

Rabbit Lymphocytes

An increased in vitro phosphorylation of nonhistone nuclear proteins (NHP) was observed in the nuclei isolated from rabbit lymphocytes which had been stimulated with anti-Ig for 4 h. No concomitant increase of phosphorylation in histones or 0.14 M NaCl-soluble proteins was observed. The increase of in vitro phosphorylation of NHP was also observed in the nuclei isolated from nonstimulated cells when these nuclei were preincubated for 2 h with cell-free extracts from anti-Ig-stimulated cells. The active substance in cell-free extracts was maximally induced when lymphocytes were stimulated with anti-Ig for 2 h. The induction of an increased phosphorylation of NHP in nonstimulated nuclei with the cell-free extracts was not due to decrease of the adenosine triphosphate pool in the extracts from anti-Ig-stimulated cells. The active substance in cell-free extracts was not NHP-protein kinase itself, but it probably activated NHP-protein kinase in quiescent nuclei. The active substance was nondialyzable and probably protein. It was resistant against heating at 56 degrees C for 30 min, but the activity was completely destroyed by heating at 90 degrees C for 30 min. The active substance may be responsible for the transduction of the membrane-mediated signals given through Ig receptors to nuclei.

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