Compounds > alanine

alanine and quinine

alanine has been researched along with quinine in 13 studies

Research

Studies (13)

TimeframeStudies, this research(%)All Research%
pre-19905 (38.46)18.7374
1990's1 (7.69)18.2507
2000's3 (23.08)29.6817
2010's4 (30.77)24.3611
2020's0 (0.00)2.80

Authors

AuthorsStudies
Hamilton, JR; MacLeod, RJ1
Castillo, LB; Wondergem, R1
Kawamura, Y; Yamamoto, T1
Sherman, IW; Tanigoshi, L1
Chanthavanich, P; Krishna, S; Looareesuwan, S; Turner, RC; Warrell, DA; Warrell, MJ; White, NJ; Williamson, DH1
Folke, M; Kristensen, LO1
Blackburn, MG; Ellis, SW; Harlow, J; Hayhurst, GP; Larsson, C; Lennard, MS; Lightfoot, T; Lim, CK; Mahling, J; Rowland-Yeo, K; Smith, G; Tucker, GT; Wolf, CR1
Arora, M; Bhushan, R1
Czerwenka, C; Lämmerhofer, M; Lindner, W1
Julínek, O; Lindner, W; Urbanová, M1
Bhullar, RP; Chelikani, P; Pydi, SP1
Bhullar, RP; Chelikani, P; Pydi, SP; Singh, N; Upadhyaya, J1
Bhullar, RP; Billakanti, R; Chelikani, P; Loewen, MC; Pydi, SP; Sobotkiewicz, T1

Other Studies

13 other study(ies) available for alanine and quinine

ArticleYear
Volume regulation initiated by Na(+)-nutrient cotransport in isolated mammalian villus enterocytes.
    The American journal of physiology, 1991, Volume: 260, Issue:1 Pt 1

    Topics: Alanine; Animals; Barium; Dipyridamole; Glucose; Guinea Pigs; In Vitro Techniques; Intestinal Mucosa; Ion Channels; Jejunum; Kinetics; Leucine; Male; Phlorhizin; Quinine; Sodium; Tetraethylammonium; Tetraethylammonium Compounds

1991
Quinine decreases hepatocyte transmembrane potential and inhibits amino acid transport.
    The American journal of physiology, 1988, Volume: 254, Issue:6 Pt 1

    Topics: Alanine; Amino Acids; Aminoisobutyric Acids; Aminooxyacetic Acid; Animals; Biological Transport; Female; Liver; Membrane Potentials; Mice; Mice, Inbred ICR; Quinine

1988
A model of neural code for taste quality.
    Physiology & behavior, 1972, Volume: 9, Issue:4

    Topics: Alanine; Animals; Chorda Tympani Nerve; Drinking; Glutamates; Models, Neurological; Neurons; Osmolar Concentration; Quinine; Rats; Saccharin; Silver Nitrate; Sodium Chloride; Sucrose; Tartrates; Taste

1972
Incorporation of 14C-amino acids by malarial plasmodia (Plasmodium iophurae). VI. Changes in the kinetic constants of amino acid transport during infection.
    Experimental parasitology, 1974, Volume: 35, Issue:3

    Topics: Adenosine Triphosphate; Alanine; Amino Acids; Animals; Biological Transport; Carbon Radioisotopes; Cell Membrane Permeability; Culture Media; Diffusion; Ducks; Erythrocytes; In Vitro Techniques; Kinetics; Malaria; Plasmodium; Quinine

1974
Severe hypoglycemia and hyperinsulinemia in falciparum malaria.
    The New England journal of medicine, 1983, Jul-14, Volume: 309, Issue:2

    Topics: 3-Hydroxybutyric Acid; Adolescent; Adult; Alanine; Blood Glucose; Brain Diseases; C-Peptide; Child; Female; Humans; Hydroxybutyrates; Hypoglycemia; Insulin; Lactates; Lactic Acid; Malaria; Male; Plasmodium falciparum; Pregnancy; Pregnancy Complications, Infectious; Quinine

1983
Volume-regulatory K+ efflux during concentrative uptake of alanine in isolated rat hepatocytes.
    The Biochemical journal, 1984, Jul-01, Volume: 221, Issue:1

    Topics: Alanine; Animals; Apamin; Body Water; Female; Furosemide; In Vitro Techniques; Liver; Potassium; Quinine; Rats; Rats, Inbred Strains; Sucrose

1984
Evidence that serine 304 is not a key ligand-binding residue in the active site of cytochrome P450 2D6.
    The Biochemical journal, 2000, Feb-01, Volume: 345 Pt 3

    Topics: Alanine; Amino Acid Substitution; Aspartic Acid; Binding Sites; Catalytic Domain; Cytochrome P-450 CYP2D6; Cytochrome P-450 CYP2D6 Inhibitors; Debrisoquin; Enzyme Inhibitors; Kinetics; Ligands; Metoprolol; Mutagenesis, Site-Directed; Oxidation-Reduction; Propranolol; Quinidine; Quinine; Serine; Substrate Specificity; Yeasts

2000
Resolution of enantiomers of DL-amino acids on silica gel plates impregnated with optically pure (-)-quinine.
    Biomedical chromatography : BMC, 2001, Volume: 15, Issue:7

    Topics: Acetates; Acetic Acid; Alanine; Amino Acids; Butanols; Carbon Tetrachloride; Chloroform; Chromatography, Thin Layer; Methionine; Propionates; Quinine; Silica Gel; Silicon Dioxide; Solvents; Stereoisomerism; Threonine; Valine

2001
Electrolyte and additive effects on enantiomer separation of peptides by nonaqueous ion-pair capillary electrophoresis using tert.-butylcarbamoylquinine as chiral counterion.
    Electrophoresis, 2002, Volume: 23, Issue:12

    Topics: Alanine; Electrolytes; Electrophoresis, Capillary; Hydrogen-Ion Concentration; Osmolar Concentration; Peptides; Polyvinyl Alcohol; Quinine; Silicon Dioxide; Solvents

2002
Study of stereoselective interactions of carbamoylated quinine and quinidine with 3,5-dinitrobenzoyl α-amino acids using VCD spectroscopy in the region of C−H stretching vibrations.
    Chirality, 2011, Volume: 23, Issue:4

    Topics: Absorption; Alanine; Amino Acids; Circular Dichroism; Dinitrobenzenes; Glycine; Hydrophobic and Hydrophilic Interactions; Isoleucine; Leucine; Quinidine; Quinine; Stereoisomerism; Valine; Vibration

2011
Constitutively active mutant gives novel insights into the mechanism of bitter taste receptor activation.
    Journal of neurochemistry, 2012, Volume: 122, Issue:3

    Topics: Alanine; Amino Acids; Calcium; Cell Line, Transformed; Dose-Response Relationship, Drug; Enzyme-Linked Immunosorbent Assay; Humans; Hydrogen Bonding; Models, Molecular; Mutation; Quaternary Ammonium Compounds; Quinine; Receptors, G-Protein-Coupled; Serine; Signal Transduction; Stimulation, Chemical; Taste; Transfection

2012
The third intracellular loop plays a critical role in bitter taste receptor activation.
    Biochimica et biophysica acta, 2014, Volume: 1838, Issue:1 Pt B

    Topics: Alanine; Amino Acid Motifs; Calcium; Conserved Sequence; Enzyme-Linked Immunosorbent Assay; Gene Expression; HEK293 Cells; Histidine; Humans; Models, Molecular; Mutagenesis, Site-Directed; Protein Structure, Secondary; Protein Structure, Tertiary; Quinine; Receptors, G-Protein-Coupled; Recombinant Fusion Proteins; Signal Transduction; Structure-Activity Relationship; Taste Buds

2014
Amino acid derivatives as bitter taste receptor (T2R) blockers.
    The Journal of biological chemistry, 2014, Sep-05, Volume: 289, Issue:36

    Topics: Alanine; Amino Acids; Asparagine; Binding Sites; GABA Agents; gamma-Aminobutyric Acid; HEK293 Cells; Humans; Lysine; Models, Molecular; Molecular Structure; Mutation; Protein Binding; Protein Structure, Tertiary; Quinine; Receptors, G-Protein-Coupled; Taste; Threonine

2014