alpha-glycerophosphoric acid and adenosine diphosphate

alpha-glycerophosphoric acid has been researched along with adenosine diphosphate in 18 studies

Research

Studies (18)

TimeframeStudies, this research(%)All Research%
pre-19907 (38.89)18.7374
1990's6 (33.33)18.2507
2000's1 (5.56)29.6817
2010's4 (22.22)24.3611
2020's0 (0.00)2.80

Authors

AuthorsStudies
Pörtner, HO1
Liu, Y; Pettigrew, DW; Yu, GJ1
Erecinska, M; Meglasson, MD; Nelson, D; Smith, KM1
Kaminsky, YG; Kosenko, EA1
Berdanier, CD; Deaver, OE; McCusker, RH; Wander, RC1
Aman, RA; Hammond, DJ; Wang, CC1
Feraudi, M; Hassel, M; Kolb, J; Weicker, H1
El-Maghrabi, MR; Pate, TM; Pilkis, J; Pilkis, SJ; Regen, DM; Stewart, HB1
Glonek, T; Greiner, JV; Kopp, SJ; Sanders, DR1
Idahl, LA; Lembert, N1
Balaban, RS; Heineman, FW; Kupriyanov, VV; Laughlin, MR; Scholz, TD1
Civelek, VN; Corkey, BE; Deeney, JT; Hansford, RG; Prentki, M; Shalosky, NJ; Tornheim, K1
Civelek, VN; Corkey, BE; Deeney, JT; Fusonie, GE; Tornheim, K1
Lampert, E; Mettauer, B; N'guessan, B; Ponsot, E; Ribera, F; Richard, R; Veksler, V; Ventura-Clapier, R; Zoll, J1
Dodson, HC; Morris, JC; Morris, MT1
Adam-Vizi, V; Tretter, L1
Lopatin, AV; Popov, VN; Starkov, AA; Syromyatnikov, MY1
Balogun, EO; Harada, S; Inaoka, DK; Kido, Y; Kita, K; Michels, PAM; Sakamoto, K; Shiba, T; Tokumasu, F; Tokuoka, SM; Watanabe, YI1

Other Studies

18 other study(ies) available for alpha-glycerophosphoric acid and adenosine diphosphate

ArticleYear
Determination of intracellular buffer values after metabolic inhibition by fluoride and nitrilotriacetic acid.
    Respiration physiology, 1990, Volume: 81, Issue:2

    Topics: Adenosine Diphosphate; Adenosine Monophosphate; Adenosine Triphosphate; Animals; Arginine; Bufonidae; Carbon Dioxide; Decapodiformes; Fluorides; Glycerophosphates; Hydrogen-Ion Concentration; Intracellular Fluid; Nitrilotriacetic Acid; Organophosphorus Compounds; Oxygen Consumption; Phosphates; Potassium; Potassium Compounds

1990
Nucleotide regulation of Escherichia coli glycerol kinase: initial-velocity and substrate binding studies.
    Biochemistry, 1990, Sep-18, Volume: 29, Issue:37

    Topics: Adenosine Diphosphate; Adenosine Triphosphate; Adenylyl Imidodiphosphate; Allosteric Regulation; Bacterial Proteins; Binding Sites; Ca(2+) Mg(2+)-ATPase; Escherichia coli; Ethylmaleimide; Glycerol Kinase; Glycerophosphates; Kinetics; Protein Binding

1990
alpha-Glycerophosphate shuttle in a clonal beta-cell line.
    The American journal of physiology, 1989, Volume: 256, Issue:1 Pt 1

    Topics: Adenosine Diphosphate; Adenosine Triphosphate; Amobarbital; Cell Line; Clone Cells; Cytosol; Electron Transport; Glucose; Glycerolphosphate Dehydrogenase; Glycerophosphates; Glycolysis; Guanosine Diphosphate; Guanosine Triphosphate; Insulin; Insulin Secretion; Islets of Langerhans; Lactates; Lactic Acid; NAD; Oxidation-Reduction; Oxygen Consumption; Pyruvates; Pyruvic Acid

1989
Different effects of 2,4-dinitrophenol on rat liver mitochondrial oxidation of various substrates: succinate and glutamate vs 3-hydroxybutyrate and glycerol 3-phosphate.
    The International journal of biochemistry, 1987, Volume: 19, Issue:1

    Topics: 2,4-Dinitrophenol; 3-Hydroxybutyric Acid; Adenosine Diphosphate; Animals; Dinitrophenols; Female; Glutamates; Glutamic Acid; Glycerophosphates; Hydroxybutyrates; Male; Mitochondria, Liver; Oxidation-Reduction; Oxidative Phosphorylation; Rats; Rats, Inbred Strains; Succinates; Succinic Acid

1987
Diet effects on membrane phospholipid fatty acids and mitochondrial function in BHE rats.
    The Journal of nutrition, 1986, Volume: 116, Issue:7

    Topics: Adenosine Diphosphate; Adenosine Triphosphatases; Animals; Aspartic Acid; Coconut Oil; Corn Oil; Diabetes Mellitus, Experimental; Diabetes Mellitus, Type 2; Dietary Fats; Fatty Acids; Glycerophosphates; Malates; Male; Membrane Lipids; Mitochondria, Liver; NAD; Oils; Phospholipids; Plant Oils; Rats; Rats, Mutant Strains

1986
The role of compartmentation and glycerol kinase in the synthesis of ATP within the glycosome of Trypanosoma brucei.
    The Journal of biological chemistry, 1985, Dec-15, Volume: 260, Issue:29

    Topics: Adenosine Diphosphate; Adenosine Triphosphate; Animals; Carbohydrate Metabolism; Cell Compartmentation; Chemical Phenomena; Chemistry; Electrophoresis, Polyacrylamide Gel; Glucose; Glucosephosphate Dehydrogenase; Glycerol Kinase; Glycerophosphates; Hexokinase; Hydrogen-Ion Concentration; NAD; Oxidation-Reduction; Phosphofructokinase-1; Phosphotransferases; Trypanosoma brucei brucei

1985
ATP-ADP-dependent phosphorylations of glycolysis metabolites, creatine and glycerol: their compartition and thermodynamic relationship in gastrocnemius muscle cell of exercised guinea pigs.
    Archives internationales de physiologie et de biochimie, 1983, Volume: 91, Issue:4

    Topics: Adenosine Diphosphate; Adenosine Triphosphate; Animals; Creatine; Glycerol; Glycerophosphates; Glycolysis; Guinea Pigs; Male; Muscles; Phosphorylation; Physical Exertion; Thermodynamics

1983
Evidence for two catalytic sites on 6-phosphofructo-2-kinase/fructose 2,6-bisphosphatase. Dynamics of substrate exchange and phosphoryl enzyme formation.
    The Journal of biological chemistry, 1984, Jan-25, Volume: 259, Issue:2

    Topics: Adenosine Diphosphate; Adenosine Triphosphate; Animals; Binding Sites; Fructosediphosphates; Fructosephosphates; Glycerophosphates; Phosphofructokinase-2; Phosphoric Monoester Hydrolases; Phosphotransferases; Rats

1984
Dynamic changes in the organophosphate profile of the experimental galactose-induced cataract.
    Investigative ophthalmology & visual science, 1982, Volume: 22, Issue:5

    Topics: Adenosine Diphosphate; Adenosine Monophosphate; Adenosine Triphosphate; Animals; Cataract; Galactose; Glycerophosphates; Half-Life; Lens, Crystalline; Magnetic Resonance Spectroscopy; Organophosphorus Compounds; Rabbits; Uridine Diphosphate Galactose

1982
Glycerol 3-phosphate-induced ATP production in intact mitochondria from pancreatic B-cells.
    The Biochemical journal, 1995, Nov-15, Volume: 312 ( Pt 1)

    Topics: Adenosine Diphosphate; Adenosine Triphosphate; Animals; Calcium; Female; Glycerophosphates; Islets of Langerhans; Mice; Mice, Obese; Mitochondria; Sodium

1995
Effect of substrate on mitochondrial NADH, cytosolic redox state, and phosphorylated compounds in isolated hearts.
    The American journal of physiology, 1995, Volume: 268, Issue:1 Pt 2

    Topics: Adenosine Diphosphate; Adenosine Triphosphate; Animals; Cardiac Output; Coronary Circulation; Cytosol; Dihydroxyacetone Phosphate; Energy Metabolism; Fluorescent Dyes; Glucose; Glycerophosphates; Heart; Heart Rate; In Vitro Techniques; Lactates; Mitochondria, Heart; Myocardium; NAD; Oxidation-Reduction; Oxygen; Oxygen Consumption; Phosphates; Phosphocreatine; Phosphorylation; Pyruvates; Rabbits; Spectrometry, Fluorescence

1995
Regulation of pancreatic beta-cell mitochondrial metabolism: influence of Ca2+, substrate and ADP.
    The Biochemical journal, 1996, Sep-01, Volume: 318 ( Pt 2)

    Topics: Adenosine Diphosphate; Adenosine Triphosphate; Animals; Calcium; Clone Cells; Egtazic Acid; Glycerophosphates; Insulinoma; Islets of Langerhans; Ketoglutaric Acids; Kinetics; Malonyl Coenzyme A; Mitochondria; Oxidation-Reduction; Oxygen Consumption; Pancreatic Neoplasms; Pyruvate Dehydrogenase Complex; Rats

1996
Oscillations in oxygen consumption by permeabilized clonal pancreatic beta-cells (HIT) incubated in an oscillatory glycolyzing muscle extract: roles of free Ca2+, substrates, and the ATP/ADP ratio.
    Diabetes, 1997, Volume: 46, Issue:1

    Topics: Adenosine Diphosphate; Adenosine Triphosphate; Animals; Calcium; Cell Membrane Permeability; Clone Cells; Egtazic Acid; Fructosediphosphates; Glycerophosphates; Glycolysis; Islets of Langerhans; Kinetics; Muscle, Skeletal; NAD; Oscillometry; Oxygen Consumption; Pyruvic Acid; Rats; Spectrometry, Fluorescence; Thapsigargin

1997
Mitochondrial tissue specificity of substrates utilization in rat cardiac and skeletal muscles.
    Journal of cellular physiology, 2005, Volume: 203, Issue:3

    Topics: Adenosine Diphosphate; Animals; Carnitine; Cell Respiration; Energy Metabolism; Fatty Acids; Glutamic Acid; Glycerophosphates; Glycolysis; Kinetics; Lactic Acid; Malates; Male; Mitochondria; Muscle, Skeletal; Myocardium; Oxidation-Reduction; Oxidative Phosphorylation; Pyruvic Acid; Rats; Rats, Wistar

2005
Glycerol 3-phosphate alters Trypanosoma brucei hexokinase activity in response to environmental change.
    The Journal of biological chemistry, 2011, Sep-23, Volume: 286, Issue:38

    Topics: Adenosine Diphosphate; Adenosine Triphosphate; Environment; Enzyme Activation; Glycerol; Glycerophosphates; Hexokinase; Hydrogen-Ion Concentration; Microbodies; Models, Molecular; Protein Structure, Secondary; Protozoan Proteins; Quercetin; Recombinant Proteins; Substrate Specificity; Trypanosoma brucei brucei

2011
High Ca2+ load promotes hydrogen peroxide generation via activation of α-glycerophosphate dehydrogenase in brain mitochondria.
    Free radical biology & medicine, 2012, Dec-01, Volume: 53, Issue:11

    Topics: Adenosine Diphosphate; Alamethicin; Animals; Brain; Calcium; Electron Transport Complex III; Energy Metabolism; Enzyme Activation; Glycerolphosphate Dehydrogenase; Glycerophosphates; Guinea Pigs; Hydrogen Peroxide; Male; Membrane Potential, Mitochondrial; Methacrylates; Mitochondria; Oxygen Consumption; Thiazoles; Uncoupling Agents

2012
Isolation and properties of flight muscle mitochondria of the bumblebee Bombus terrestris (L.).
    Biochemistry. Biokhimiia, 2013, Volume: 78, Issue:8

    Topics: Adenosine Diphosphate; Animals; Bees; Cell Respiration; Citric Acid Cycle; Electron Transport Complex I; Flight, Animal; Glycerophosphates; Malates; Membrane Potentials; Mitochondria, Muscle; Pyruvic Acid; Rotenone

2013
Glycerol kinase of African trypanosomes possesses an intrinsic phosphatase activity.
    Biochimica et biophysica acta. General subjects, 2017, Volume: 1861, Issue:11 Pt A

    Topics: Adenosine Diphosphate; Adenosine Triphosphate; Animals; Crystallography, X-Ray; Glycerol; Glycerol Kinase; Glycerophosphates; Humans; Nitrobenzenes; Phosphoric Monoester Hydrolases; Protein Conformation; Substrate Specificity; Trypanosoma brucei gambiense

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