Compounds > coenzyme a
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coenzyme a and histidine

coenzyme a has been researched along with histidine in 32 studies

Research

Studies (32)

TimeframeStudies, this research(%)All Research%
pre-199016 (50.00)18.7374
1990's4 (12.50)18.2507
2000's8 (25.00)29.6817
2010's1 (3.13)24.3611
2020's3 (9.38)2.80

Authors

AuthorsStudies
Magasanik, B; Struhl, K1
Bang, SK; Kim, YI; Kim, YS1
Butor, C; Diaz, S; Higa, HH; Varki, A1
Kinnunen, PM; Lange, LG; Spilburg, CA1
Horecker, BL; Nakashima, K; Pontremoli, S; Traniello, S1
Dugan, RE; Porter, JW1
Roskoski, R1
Bridger, WA; Jurásek, L; Wang, T1
Izui, K; Katsuki, H; Teraoka, H1
Bridger, WA1
Krishna, RV; Krishnaswamy, PR; Rao, DR1
Herman, RH; Stifel, FB1
Boyer, PD; Kreil, G1
Cottam, GL; Das, N; Srere, PA1
Boyer, PD; Butler, LG; Mitchell, RA1
Hanson, A1
Bridger, WA; Vogel, HJ1
Krivánek, J1
Omkumar, RV; Rodwell, VW1
Bridger, WA; Fraser, ME; James, MN; Wolodko, WT2
Jackowski, S; Kim, JY; Park, CG; Park, HW; Rock, CO; Yun, M1
Kupke, T1
Barnes, S; Falany, CN; Sakalian, M; Sfakianos, MK; Wilson, L1
Armengaud, J; Chaumont, V; Fernandez, B; Finet, S; Forterre, P; Gans, P; Gribaldo, S; Marchetti, C; Myllykallio, H; Pellequer, JL; Rollin-Genetet, F; Vidaud, C1
Butler, D; Kavanagh, KL; McDonough, MA; Oppermann, U; Schofield, CJ; Searls, T1
Ajamian, E; Cygler, M; Fraser, ME; Iannuzzi, P; Kernaghan, SD; Li, Y; Matte, A; Rangarajan, ES1
Kursula, P; Meriläinen, G; Poikela, V; Wierenga, RK1
Beutel, O; Bhagawati, M; Piehler, J; Waichman, S; You, C1
Fraser, ME; Huang, J1
Brennan, PE; Burgess-Brown, NA; Bushell, SR; Carpenter, EP; Chu, A; Cole, V; Love, JD; Moreira, T; Mukhopadhyay, SMM; Nie, L; Pascoa, TC; Pike, ACW; Quigley, A; Ruda, GF; Shrestha, L; Speedman, D1
Donnelly, L; Elghobashi-Meinhardt, N; Li, X; Liu, Y; Long, T; Qi, X; Sun, Y; Wang, B; Zhou, RW1

Reviews

1 review(s) available for coenzyme a and histidine

ArticleYear
An n.m.r. probe of succinyl-coenzyme A synthetase: subunit interactions and the mechanism of action.
    Biochemical Society transactions, 1983, Volume: 11, Issue:3

    Topics: Adenosine Diphosphate; Adenosine Triphosphate; Binding Sites; Coenzyme A; Coenzyme A Ligases; Escherichia coli; Histidine; Macromolecular Substances; Magnetic Resonance Spectroscopy; Succinate-CoA Ligases; Succinates

1983

Other Studies

31 other study(ies) available for coenzyme a and histidine

ArticleYear
Ammonia-sensitive mutant of Klebsiella aerogenes.
    Journal of bacteriology, 1976, Volume: 126, Issue:2

    Topics: Aerobiosis; Ammonia; Coenzyme A; Glucose; Glutamates; Histidine; Ketoglutarate Dehydrogenase Complex; Ketoglutaric Acids; Klebsiella; Mutation; Temperature

1976
Chemical modification of Pseudomonas fluorescens malonyl-CoA synthetase by diethylpyrocarbonate: kinetic evidence for an essential histidyl residue on alpha subunit.
    Journal of protein chemistry, 1991, Volume: 10, Issue:4

    Topics: Adenosine Triphosphate; Bacterial Proteins; Binding Sites; Coenzyme A; Coenzyme A Ligases; Diethyl Pyrocarbonate; Enzyme Reactivators; Histidine; Hydrogen-Ion Concentration; Hydroxylamine; Hydroxylamines; Kinetics; Macromolecular Substances; Malonates; Pseudomonas fluorescens

1991
O-acetylation and de-O-acetylation of sialic acids. O-acetylation of sialic acids in the rat liver Golgi apparatus involves an acetyl intermediate and essential histidine and lysine residues--a transmembrane reaction?
    The Journal of biological chemistry, 1989, Nov-15, Volume: 264, Issue:32

    Topics: Acetates; Acetyl Coenzyme A; Acetylation; Animals; Chromatography, High Pressure Liquid; Coenzyme A; Cytidine Monophosphate N-Acetylneuraminic Acid; Diethyl Pyrocarbonate; Golgi Apparatus; Histidine; Intracellular Membranes; Kinetics; Liver; Lysine; Lysosomes; Models, Biological; Rats; Sialic Acids

1989
Chemical modification of acyl-CoA:cholesterol O-acyltransferase. 2. Identification of a coenzyme A regulatory site by p-mercuribenzoate modification.
    Biochemistry, 1988, Sep-20, Volume: 27, Issue:19

    Topics: Acyl Coenzyme A; Aorta; Binding Sites; Chemical Phenomena; Chemistry; Cholesterol Esters; Chromatography, DEAE-Cellulose; Coenzyme A; Dithiothreitol; Histidine; Mercaptoethanol; Mercuribenzoates; Microsomes; Sterol O-Acyltransferase; Sulfhydryl Compounds

1988
Rabbit liver and rabbit kidney fructose diphosphatases: catalytic properties of enzymes activated by coenzyme A and acyl carrier protein.
    Archives of biochemistry and biophysics, 1970, Volume: 139, Issue:1

    Topics: Adenine Nucleotides; Animals; Bacterial Proteins; Chelating Agents; Chemical Phenomena; Chemistry; Chlorides; Coenzyme A; Cysteine; Edetic Acid; Enzyme Activation; Escherichia coli; Fatty Acids; Fructose; Fructose-Bisphosphatase; Gluconeogenesis; Glutathione; Glycine; Hexosephosphates; Histidine; Hydrogen-Ion Concentration; Kidney; Kinetics; Liver; Magnesium; Manganese; Nitrogen; Oxidation-Reduction; Protein Binding; Rabbits; Sulfhydryl Compounds

1970
The binding of reduced nicotinamide adenine dinucleotide phosphate to mammalian and avian fatty acid synthetases. Number of binding sites and the effect of reagents and conditions on the binding of reduced nicotinamide adenine dinucleotide phosphate to en
    The Journal of biological chemistry, 1970, Apr-25, Volume: 245, Issue:8

    Topics: Acetates; Alkylation; Animals; Binding Sites; Buffers; Coenzyme A; Columbidae; Dialysis; Fatty Acids; Fluorescence; Histidine; Hydrogen-Ion Concentration; Iodoacetates; Ligases; Liver; Malonates; Molecular Weight; NADP; Osmolar Concentration; Palmitic Acids; Phosphates; Rats; Sulfhydryl Compounds

1970
Choline acetyltransferase and acetylcholinesterase: evidence for essential histidine residues.
    Biochemistry, 1974, Dec-03, Volume: 13, Issue:25

    Topics: Acetyl Coenzyme A; Acetylcholine; Acetylcholinesterase; Acetyltransferases; Anhydrides; Animals; Brain; Cattle; Choline; Cholinesterase Inhibitors; Coenzyme A; Electrophorus; Enzyme Reactivators; Ethyl Ethers; Formates; Histidine; Hydrogen-Ion Concentration; Hydroxylamines; Imidazoles; Kinetics

1974
Succinyl coenzyme A synthetase of Escherichia coli. Sequence of a peptide containing the active-site phosphohistidine residue.
    Biochemistry, 1972, May-23, Volume: 11, Issue:11

    Topics: Amino Acid Sequence; Amino Acids; Autoanalysis; Binding Sites; Catalysis; Chromatography, Ion Exchange; Coenzyme A; Dansyl Compounds; Escherichia coli; Histidine; Ligases; Peptides; Phosphoproteins; Phosphorus; Phosphorus Isotopes; Succinates; Trypsin

1972
Phosphoenolpyruvate carboxylase of Escherichia coli: alteration of allosteric properties by photooxidation.
    Archives of biochemistry and biophysics, 1972, Volume: 152, Issue:2

    Topics: Allosteric Regulation; Aspartic Acid; Binding Sites; Carboxy-Lyases; Coenzyme A; Dioxins; Enzyme Activation; Escherichia coli; Ethylmaleimide; Fatty Acids, Unsaturated; Fructosephosphates; Histidine; Hydrogen-Ion Concentration; Kinetics; Light; Methylene Blue; Oxaloacetates; Phosphoenolpyruvate; Radiation Effects

1972
Evidence for two types of subunits in succinyl coenzyme A synthetase.
    Biochemical and biophysical research communications, 1971, Mar-05, Volume: 42, Issue:5

    Topics: Binding Sites; Coenzyme A; Detergents; Electrophoresis; Escherichia coli; Histidine; Ligases; Molecular Weight; Phosphopeptides; Phosphorus Isotopes; Succinates; Sulfuric Acids

1971
Enzymic synthesis of N-acetyl-L-phenylalanine in Escherichia coli K12.
    The Biochemical journal, 1971, Volume: 124, Issue:5

    Topics: Acetates; Acyltransferases; Alanine; Ammonium Sulfate; Calcium Phosphates; Carbon Isotopes; Cell-Free System; Chromatography, Gel; Coenzyme A; Escherichia coli; Histidine; Hydrogen-Ion Concentration; Phenylalanine; Sulfhydryl Reagents; Ultracentrifugation

1971
Effect of L-histidine on human and rat jejunal pyruvate kinase activity.
    Canadian journal of biochemistry, 1971, Volume: 49, Issue:10

    Topics: Adipose Tissue; Adult; Amino Acids; Animals; Brain; Coenzyme A; Diet; Dipeptides; Enzyme Activation; Histamine; Histidine; Humans; Imidazoles; In Vitro Techniques; Jejunum; Kidney; Kinetics; Liver; Male; Muscles; Myocardium; Pyruvate Kinase; Rats

1971
Detection of bound phosphohistidine in E. coli succinate thiokinase.
    Biochemical and biophysical research communications, 1964, Aug-11, Volume: 16, Issue:6

    Topics: Adenosine Triphosphate; Chromatography; Coenzyme A; Escherichia coli; Histidine; Ligases; Phosphorus Isotopes; Succinates

1964
The citrate cleavage enzyme: release of phosphate from the phosphoenzyme.
    Archives of biochemistry and biophysics, 1971, Volume: 143, Issue:2

    Topics: Adenosine Triphosphate; Animals; Binding Sites; Chemical Phenomena; Chemistry; Chromatography, Ion Exchange; Citrates; Coenzyme A; Histidine; Hydrogen-Ion Concentration; Hydrolysis; Kinetics; Liver; Lyases; Magnesium; Phosphates; Phosphoric Acids; Phosphorus Isotopes; Rats

1971
The association of readily-soluble bound phosphohistidine from mitochondria with succinate thiokinase.
    Biochemical and biophysical research communications, 1964, Aug-11, Volume: 16, Issue:6

    Topics: Animals; Cattle; Coenzyme A; Histidine; In Vitro Techniques; Ligases; Liver; Mitochondria; Phosphorus Isotopes

1964
[N-acetylhistidine as a donor of acetyl in the biosynthesis of acetylcholine in the brain in fish].
    Acta chemica Scandinavica, 1966, Volume: 20, Issue:1

    Topics: Acetates; Acetylcholine; Adenosine Triphosphate; Animals; Brain; Coenzyme A; Fishes; Histidine; In Vitro Techniques

1966
Effect of vanadium ions on ATP citrate lyase.
    General physiology and biophysics, 1994, Volume: 13, Issue:1

    Topics: Adenosine Diphosphate; Animals; ATP Citrate (pro-S)-Lyase; Binding Sites; Citrates; Citric Acid; Coenzyme A; Histidine; Kinetics; Liver; Male; Phosphorylation; Rats; Vanadates

1994
Phosphorylation of Ser871 impairs the function of His865 of Syrian hamster 3-hydroxy-3-methylglutaryl-CoA reductase.
    The Journal of biological chemistry, 1994, Jun-17, Volume: 269, Issue:24

    Topics: Amino Acid Sequence; Animals; Binding Sites; Coenzyme A; Consensus Sequence; Cricetinae; Histidine; Humans; Hydroxymethylglutaryl CoA Reductases; Kinetics; Mesocricetus; Molecular Sequence Data; Mutagenesis, Site-Directed; Phosphorylation; Plants; Recombinant Proteins; Sequence Homology, Amino Acid; Serine; Time Factors

1994
A detailed structural description of Escherichia coli succinyl-CoA synthetase.
    Journal of molecular biology, 1999, Jan-29, Volume: 285, Issue:4

    Topics: Alternative Splicing; Amino Acid Sequence; Animals; Binding Sites; Coenzyme A; Crystallography, X-Ray; Dimerization; Escherichia coli; Histidine; Models, Molecular; Molecular Sequence Data; Protein Conformation; Protein Structure, Secondary; Sequence Homology, Amino Acid; Static Electricity; Stereoisomerism; Succinate-CoA Ligases; Sulfates; Swine; Thermodynamics

1999
Structural basis for the feedback regulation of Escherichia coli pantothenate kinase by coenzyme A.
    The Journal of biological chemistry, 2000, Sep-08, Volume: 275, Issue:36

    Topics: Adenosine Triphosphate; Adenylyl Imidodiphosphate; Amino Acid Sequence; Arginine; Aspartic Acid; Binding Sites; Coenzyme A; Crystallography, X-Ray; Dimerization; Escherichia coli; Feedback; Histidine; Ligands; Molecular Sequence Data; Phosphotransferases (Alcohol Group Acceptor); Protein Structure, Secondary

2000
Phosphorylated and dephosphorylated structures of pig heart, GTP-specific succinyl-CoA synthetase.
    Journal of molecular biology, 2000, Jun-23, Volume: 299, Issue:5

    Topics: Adenosine Diphosphate; Adenosine Triphosphate; Amino Acid Sequence; Animals; Binding Sites; Coenzyme A; Crystallography, X-Ray; Dimerization; Enzyme Stability; Escherichia coli; Guanosine Triphosphate; Heart; Histidine; Isoenzymes; Models, Molecular; Molecular Sequence Data; Myocardium; Phosphates; Phosphorylation; Protein Conformation; Sequence Alignment; Succinate-CoA Ligases; Swine; Water

2000
Molecular characterization of the 4'-phosphopantothenoylcysteine synthetase domain of bacterial dfp flavoproteins.
    The Journal of biological chemistry, 2002, Sep-27, Volume: 277, Issue:39

    Topics: Amino Acid Motifs; Amino Acid Sequence; Catalysis; Chromatography, Gel; Cloning, Molecular; Coenzyme A; Dimerization; Electrophoresis, Polyacrylamide Gel; Escherichia coli; Histidine; Lysine; Models, Chemical; Molecular Sequence Data; Mutagenesis, Site-Directed; Mutation; Peptide Synthases; Plasmids; Protein Binding; Protein Structure, Tertiary; Sequence Homology, Amino Acid

2002
Conserved residues in the putative catalytic triad of human bile acid Coenzyme A:amino acid N-acyltransferase.
    The Journal of biological chemistry, 2002, Dec-06, Volume: 277, Issue:49

    Topics: Acyl Coenzyme A; Acyltransferases; Amino Acid Sequence; Aspartic Acid; Bile Acids and Salts; Catalysis; Catalytic Domain; Cholic Acids; Coenzyme A; Conserved Sequence; Cysteine; DNA, Complementary; Dose-Response Relationship, Drug; Ethylmaleimide; Histidine; Humans; Kinetics; Models, Chemical; Molecular Sequence Data; Mutation; Protein Binding; Sequence Homology, Amino Acid; Spectrometry, Mass, Electrospray Ionization; Time Factors; Trypsin

2002
Identification, purification, and characterization of an eukaryotic-like phosphopantetheine adenylyltransferase (coenzyme A biosynthetic pathway) in the hyperthermophilic archaeon Pyrococcus abyssi.
    The Journal of biological chemistry, 2003, Aug-15, Volume: 278, Issue:33

    Topics: Amino Acid Sequence; Archaeal Proteins; Calorimetry, Differential Scanning; Coenzyme A; Escherichia coli; Eukaryotic Cells; Histidine; Molecular Sequence Data; Nucleotidyltransferases; Phylogeny; Protein Structure, Secondary; Protein Structure, Tertiary; Pyrococcus; Recombinant Proteins

2003
Structure of human phytanoyl-CoA 2-hydroxylase identifies molecular mechanisms of Refsum disease.
    The Journal of biological chemistry, 2005, Dec-09, Volume: 280, Issue:49

    Topics: Aspartic Acid; Binding Sites; Coenzyme A; Crystallization; Crystallography, X-Ray; Cysteine; Escherichia coli; Ferrous Compounds; Histidine; Humans; Ketoglutaric Acids; Mixed Function Oxygenases; Models, Molecular; Mutation; Peroxisomes; Phytanic Acid; Protein Binding; Protein Structure, Secondary; Recombinant Proteins; Refsum Disease; Structure-Activity Relationship; Transfection

2005
Crystallographic trapping of the glutamyl-CoA thioester intermediate of family I CoA transferases.
    The Journal of biological chemistry, 2005, Dec-30, Volume: 280, Issue:52

    Topics: Binding Sites; Carboxylic Acids; Catalysis; Catalytic Domain; Chromatography, Gel; Cloning, Molecular; Coenzyme A; Coenzyme A-Transferases; Crystallization; Crystallography, X-Ray; Escherichia coli; Escherichia coli Proteins; Esters; Glutamic Acid; Histidine; Mass Spectrometry; Models, Chemical; Models, Molecular; Molecular Conformation; Protein Conformation; Protein Folding; Protein Structure, Quaternary; Protein Structure, Secondary; Protein Structure, Tertiary

2005
The thiolase reaction mechanism: the importance of Asn316 and His348 for stabilizing the enolate intermediate of the Claisen condensation.
    Biochemistry, 2009, Nov-24, Volume: 48, Issue:46

    Topics: Acetyl Coenzyme A; Acetyl-CoA C-Acetyltransferase; Amino Acid Substitution; Asparagine; Biocatalysis; Calorimetry; Catalytic Domain; Circular Dichroism; Coenzyme A; Crystallography, X-Ray; Enzyme Stability; Histidine; Hydrogen Bonding; Kinetics; Models, Molecular; Protein Conformation; Recombinant Proteins; Static Electricity; Thermodynamics; Transition Temperature; Water; Zoogloea

2009
Maleimide photolithography for single-molecule protein-protein interaction analysis in micropatterns.
    Analytical chemistry, 2011, Jan-15, Volume: 83, Issue:2

    Topics: Coenzyme A; Green Fluorescent Proteins; Histidine; Immobilized Proteins; Interferon-alpha; Maleimides; Oligopeptides; Protein Binding; Protein Interaction Mapping; Proteins; Spectrometry, Fluorescence; Sulfhydryl Compounds; Surface Properties

2011
Tartryl-CoA inhibits succinyl-CoA synthetase.
    Acta crystallographica. Section F, Structural biology communications, 2020, Jul-01, Volume: 76, Issue:Pt 7

    Topics: Amino Acid Sequence; Binding Sites; Coenzyme A; Crystallography, X-Ray; Dimerization; Escherichia coli; Guanosine Triphosphate; Histidine; Humans; Magnesium Chloride; Models, Molecular; Phosphates; Phosphorylation; Protein Binding; Protein Conformation; Protein Domains; Recombinant Proteins; Succinate-CoA Ligases; Tartrates

2020
The structural basis of fatty acid elongation by the ELOVL elongases.
    Nature structural & molecular biology, 2021, Volume: 28, Issue:6

    Topics: Adrenoleukodystrophy; Animals; Binding Sites; Catalytic Domain; Cloning, Molecular; Coenzyme A; Crystallography, X-Ray; Fatty Acid Elongases; Fatty Acids; HEK293 Cells; Histidine; Humans; Imidazoles; Models, Molecular; Protein Binding; Protein Conformation; Recombinant Proteins; Sf9 Cells; Spectrometry, Mass, Electrospray Ionization; Structure-Activity Relationship; Substrate Specificity

2021
Mechanisms and inhibition of Porcupine-mediated Wnt acylation.
    Nature, 2022, Volume: 607, Issue:7920

    Topics: Acylation; Acyltransferases; Antineoplastic Agents; Binding Sites; Coenzyme A; Cryoelectron Microscopy; Histidine; Humans; Membrane Proteins; Neoplasms; Palmitoyl Coenzyme A; Pyrazines; Pyridines; Serine; Substrate Specificity; Wnt Signaling Pathway; Wnt3A Protein

2022