BIOMAT Database Logo BIOMAT Database Logo

Effect of rubidium, lithium and cesium on brain ATPase and protein kinases. 1977

R Krulík, and I Farská, and J Prokes

The authors studied the effect of rubidium, lithium and cesium on the ATPase system and c-AMP protein kinase in brain. They demonstrated that rubidium could replace potassium in the Na+K-ATPase system, whereas lithium and cesium had no effect on this enzyme activity in the absence of potassium. K+-dependent ATPase was activated by even low rubidium concentrations; lithium and cesium inhibited it. None of three (rubidium, lithium and cesium) affected c-AMP protein kinase.

UI MeSH Term Description Entries
D008094 Lithium An element in the alkali metals family. It has the atomic symbol Li, atomic number 3, and atomic weight [6.938; 6.997]. Salts of lithium are used in treating BIPOLAR DISORDER. Lithium-7,Lithium 7
D008274 Magnesium A metallic element that has the atomic symbol Mg, atomic number 12, and atomic weight 24.31. It is important for the activity of many enzymes, especially those involved in OXIDATIVE PHOSPHORYLATION.
D008297 Male Males
D008928 Mitochondria Semiautonomous, self-reproducing organelles that occur in the cytoplasm of all cells of most, but not all, eukaryotes. Each mitochondrion is surrounded by a double limiting membrane. The inner membrane is highly invaginated, and its projections are called cristae. Mitochondria are the sites of the reactions of oxidative phosphorylation, which result in the formation of ATP. They contain distinctive RIBOSOMES, transfer RNAs (RNA, TRANSFER); AMINO ACYL T RNA SYNTHETASES; and elongation and termination factors. Mitochondria depend upon genes within the nucleus of the cells in which they reside for many essential messenger RNAs (RNA, MESSENGER). Mitochondria are believed to have arisen from aerobic bacteria that established a symbiotic relationship with primitive protoeukaryotes. (King & Stansfield, A Dictionary of Genetics, 4th ed) Mitochondrial Contraction,Mitochondrion,Contraction, Mitochondrial,Contractions, Mitochondrial,Mitochondrial Contractions
D010744 Phosphoric Monoester Hydrolases A group of hydrolases which catalyze the hydrolysis of monophosphoric esters with the production of one mole of orthophosphate. Phosphatase,Phosphatases,Phosphohydrolase,Phosphohydrolases,Phosphomonoesterase,Phosphomonoesterases,Phosphoric Monoester Hydrolase,Hydrolase, Phosphoric Monoester,Hydrolases, Phosphoric Monoester,Monoester Hydrolase, Phosphoric
D010770 Phosphotransferases A rather large group of enzymes comprising not only those transferring phosphate but also diphosphate, nucleotidyl residues, and others. These have also been subdivided according to the acceptor group. (From Enzyme Nomenclature, 1992) EC 2.7. Kinases,Phosphotransferase,Phosphotransferases, ATP,Transphosphorylase,Transphosphorylases,Kinase,ATP Phosphotransferases
D011188 Potassium An element in the alkali group of metals with an atomic symbol K, atomic number 19, and atomic weight 39.10. It is the chief cation in the intracellular fluid of muscle and other cells. Potassium ion is a strong electrolyte that plays a significant role in the regulation of fluid volume and maintenance of the WATER-ELECTROLYTE BALANCE.
D001921 Brain The part of CENTRAL NERVOUS SYSTEM that is contained within the skull (CRANIUM). Arising from the NEURAL TUBE, the embryonic brain is comprised of three major parts including PROSENCEPHALON (the forebrain); MESENCEPHALON (the midbrain); and RHOMBENCEPHALON (the hindbrain). The developed brain consists of CEREBRUM; CEREBELLUM; and other structures in the BRAIN STEM. Encephalon
D002586 Cesium A member of the alkali metals. It has an atomic symbol Cs, atomic number 55, and atomic weight 132.91. Cesium has many industrial applications, including the construction of atomic clocks based on its atomic vibrational frequency. Caesium,Caesium-133,Cesium-133,Caesium 133,Cesium 133
D004789 Enzyme Activation Conversion of an inactive form of an enzyme to one possessing metabolic activity. It includes 1, activation by ions (activators); 2, activation by cofactors (coenzymes); and 3, conversion of an enzyme precursor (proenzyme or zymogen) to an active enzyme. Activation, Enzyme,Activations, Enzyme,Enzyme Activations

Related Publications

R Krulík, and I Farská, and J Prokes
[Effect of cesium, lithium and rubidium on several effects of morphine].
January 1978, Biulleten' eksperimental'noi biologii i meditsiny,
R Krulík, and I Farská, and J Prokes
Lithium, rubidium and cesium: cerebral pharmacokinetics and alcohol interactions.
January 1984, Pharmacology, biochemistry, and behavior,
R Krulík, and I Farská, and J Prokes
[Cesium and rubidium].
March 1963, Archives des maladies du coeur et des vaisseaux,
R Krulík, and I Farská, and J Prokes
Ionic requirements of Treponema pallidum. II. Ammonium, lithium, rubidium, and cesium.
November 1959, Journal of bacteriology,
R Krulík, and I Farská, and J Prokes
[Ozonides of sodium rubidium and cesium].
March 1951, Doklady Akademii nauk SSSR,
R Krulík, and I Farská, and J Prokes
[Cesium and rubidium metabolism in cows].
October 1977, Die Naturwissenschaften,
R Krulík, and I Farská, and J Prokes
The effects of lithium, rubidium, cesium and magnesium ions on the close packing of persistence-length DNA fragments.
May 1991, Biophysical chemistry,
R Krulík, and I Farská, and J Prokes
[The effect of lithium and rubidium on cerebral monoamines in mice].
April 1973, L'union medicale du Canada,
R Krulík, and I Farská, and J Prokes
Acute toxicity of cesium and rubidium compounds.
May 1975, Toxicology and applied pharmacology,
R Krulík, and I Farská, and J Prokes
Longitudinal-optical phonons in thin films of rubidium iodide, potassium iodide, rubidium bromide, cesium iodide, and cesium bromide.
January 1992, Physical review. B, Condensed matter,
Copied contents to your clipboard!