Compounds > acetylglucosamine
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acetylglucosamine and pyruvic acid

acetylglucosamine has been researched along with pyruvic acid in 17 studies

Research

Studies (17)

TimeframeStudies, this research(%)All Research%
pre-19901 (5.88)18.7374
1990's3 (17.65)18.2507
2000's0 (0.00)29.6817
2010's12 (70.59)24.3611
2020's1 (5.88)2.80

Authors

AuthorsStudies
Araki, Y; Ito, E; Kaya, S; Kojima, N1
MacLean, LL; Perry, MB1
Dawson, MJ; Drake, CS; Mahmoudian, M; Middleton, RF; Montgomery, DS; Noble, D; Piercey, JE; Ramlakhan, D; Todd, M1
Maru, I; Ohnishi, J; Ohta, Y; Tsukada, Y1
Bai, H; Chen, J; Hu, S; Jiang, W; Luo, J; Shao, L; Yang, Y; Yang, Z1
Du, M; Gu, L; He, X; Ma, C; Qiu, J; Tao, F; Xu, P; Zhang, Y1
Castiglione, K; Groher, A; Klermund, L1
Gao, M; Wu, J; Zhan, X; Zhao, Z; Zhu, D1
Abell, L; Cao, Y; Gu, H; Kim, M; Kolwicz, SC; Li, T; Raftery, D; Ritterhoff, J; Roe, ND; Sun, H; Tian, R; Zhang, Z; Zhou, B1
Bertilsson, S; Dinasquet, J; Logares, R; Richert, I; Riemann, L; Yager, P1
Honda, K; Kimura, K; Ninh, PH; Ohtake, H; Okano, K; Taniguchi, H1
Chen, YY; Kao, CH; Lee, YC; Wang, LR1
Chen, J; Du, G; Gu, Y; Li, J; Liu, L; Liu, Y; Lv, X; Rodrigo, LA1
Du, G; Li, J; Liu, L; Liu, Y; Lv, X; Ma, W1
Jiang, Y; Wu, JR; Zhan, XB; Zhu, DQ; Zhu, L1
Annavajhala, MK; Gabryszewski, SJ; Khan, IN; Koff, JL; Mulenos, AM; Noguera, LP; Peaper, D; Prince, A; Riquelme, SA; Tomlinson, KL; Uhlemann, AC; Wickersham, M; Wong Fok Lung, T; Zhao, A1
Ameneiro, C; Beiroa, D; Bernardo, G; Bilbao, J; Bravo, SB; Carneiro, C; Cho, JW; Coppari, R; Cuñarro, J; Da Silva Lima, N; Dieguez, C; Dp Chantada-Vazquez, M; Fernandez, U; Fernández-Ramos, D; Ferno, J; Fidalgo, M; Fondevila, MF; Fruhbeck, G; Garcia-Vence, M; Gonzalez-Rellan, MJ; Guallar, D; Herzig, S; Iglesias, C; López, M; Lopitz-Otsoa, F; Martinez-Chantar, ML; Mato, JM; Millet, O; Müller, TD; Nogueiras, R; Novoa, E; Perez-Fernandez, R; Porteiro, B; Rodríguez, A; Sabio, G; Senra, A; Seoane, S; Tovar, S; Varela-Rey, M; Veyrat-Durebex, C; Vidal, A; Woodhoo, A; Yang, WH1

Other Studies

17 other study(ies) available for acetylglucosamine and pyruvic acid

ArticleYear
Pyruvic-acid-containing polysaccharide in the cell wall of Bacillus polymyxa AHU 1385.
    European journal of biochemistry, 1988, Jun-01, Volume: 174, Issue:2

    Topics: Acetylglucosamine; Bacillus; Carbohydrate Sequence; Cell Wall; Chromatography, Ion Exchange; Hexosamines; Hydrolysis; Magnetic Resonance Spectroscopy; Methylation; Molecular Sequence Data; Polysaccharides, Bacterial; Pyruvates; Pyruvic Acid

1988
The structure of the polysaccharide produced by Proteus vulgaris (ATCC 49990).
    Carbohydrate research, 1994, Feb-03, Volume: 253

    Topics: Acetylglucosamine; Carbohydrate Conformation; Carbohydrate Sequence; Galactose; Gas Chromatography-Mass Spectrometry; Magnetic Resonance Spectroscopy; Methylation; Molecular Sequence Data; Oligosaccharides; Polysaccharides, Bacterial; Proteus vulgaris; Pyruvates; Pyruvic Acid

1994
An efficient process for production of N-acetylneuraminic acid using N-acetylneuraminic acid aldolase.
    Enzyme and microbial technology, 1997, Volume: 20, Issue:5

    Topics: 1-Propanol; Acetylglucosamine; Base Sequence; Biotransformation; Crystallization; DNA Primers; Enzymes, Immobilized; Escherichia coli; Hexosamines; N-Acetylneuraminic Acid; Oxo-Acid-Lyases; Pyruvic Acid; Recombinant Proteins; Solvents; Time Factors

1997
Simple and large-scale production of N-acetylneuraminic acid from N-acetyl-D-glucosamine and pyruvate using N-acyl-D-glucosamine 2-epimerase and N-acetylneuraminate lyase.
    Carbohydrate research, 1998, Volume: 306, Issue:4

    Topics: Acetylglucosamine; Animals; Carbohydrate Epimerases; Carrier Proteins; Cloning, Molecular; Escherichia coli; N-Acetylneuraminic Acid; Oxo-Acid-Lyases; Pyruvic Acid; Recombinant Proteins; Swine

1998
Coupled bioconversion for preparation of N-acetyl-D: -neuraminic acid using immobilized N-acetyl-D: -glucosamine-2-epimerase and N-acetyl-D: -neuraminic acid lyase.
    Applied microbiology and biotechnology, 2010, Volume: 85, Issue:5

    Topics: Acetylglucosamine; Bioreactors; Carbohydrate Epimerases; Carrier Proteins; Catalysis; Cloning, Molecular; DNA, Bacterial; Enzymes, Immobilized; Escherichia coli; Hexosamines; Hydrogen-Ion Concentration; Kinetics; N-Acetylneuraminic Acid; Oxo-Acid-Lyases; Pyruvic Acid; Recombinant Proteins

2010
An efficient method for N-acetyl-D-neuraminic acid production using coupled bacterial cells with a safe temperature-induced system.
    Applied microbiology and biotechnology, 2010, Volume: 86, Issue:2

    Topics: Acetylglucosamine; Carbohydrate Epimerases; Carbon; Carrier Proteins; Escherichia coli; Gene Expression; Gene Expression Regulation, Bacterial; Genetic Engineering; N-Acetylneuraminic Acid; Oxo-Acid-Lyases; Pyruvic Acid; Recombinant Proteins; Temperature; Time Factors

2010
New N-acyl-D-glucosamine 2-epimerases from cyanobacteria with high activity in the absence of ATP and low inhibition by pyruvate.
    Journal of biotechnology, 2013, Volume: 168, Issue:3

    Topics: Acetylglucosamine; Adenosine Triphosphate; Bacterial Proteins; Carbohydrate Epimerases; Carrier Proteins; Cloning, Molecular; Cyanobacteria; DNA, Bacterial; Enzyme Activation; Escherichia coli; Hexosamines; Pyruvic Acid; Substrate Specificity

2013
Efficient whole-cell biocatalyst for Neu5Ac production by manipulating synthetic, degradation and transmembrane pathways.
    Biotechnology letters, 2017, Volume: 39, Issue:1

    Topics: Acetylglucosamine; Anabaena; Biocatalysis; Campylobacter jejuni; Carbohydrate Epimerases; Carrier Proteins; Escherichia coli; N-Acetylneuraminic Acid; Phosphoenolpyruvate; Pyruvic Acid

2017
Defective Branched-Chain Amino Acid Catabolism Disrupts Glucose Metabolism and Sensitizes the Heart to Ischemia-Reperfusion Injury.
    Cell metabolism, 2017, 02-07, Volume: 25, Issue:2

    Topics: Acetylglucosamine; Amino Acids, Branched-Chain; Animals; Glucose; Glycosylation; Heart Function Tests; Mice, Inbred C57BL; Mice, Knockout; Mitochondria, Heart; Myocardium; Pyruvate Dehydrogenase Complex; Pyruvic Acid; Reperfusion Injury

2017
Mixing of water masses caused by a drifting iceberg affects bacterial activity, community composition and substrate utilization capability in the Southern Ocean.
    Environmental microbiology, 2017, Volume: 19, Issue:6

    Topics: Acetylglucosamine; Antarctic Regions; Aquatic Organisms; Archaea; Bacteria; Carbon; Ecosystem; Global Warming; Glutamine; Ice Cover; Microbiota; Plankton; Pyruvic Acid; Seasons; Water Microbiology

2017
In vitro bioconversion of chitin to pyruvate with thermophilic enzymes.
    Journal of bioscience and bioengineering, 2017, Volume: 124, Issue:3

    Topics: Acetylglucosamine; Adenosine Triphosphate; Adenylate Kinase; Bioreactors; Chitin; Coenzymes; Enzyme Stability; Enzymes; Escherichia coli; Fermentation; Phosphotransferases (Phosphate Group Acceptor); Pyruvic Acid

2017
Production of N-acetyl-D-neuraminic Acid by Recombinant Single Whole Cells Co-expressing N-acetyl-D-glucosamine-2-epimerase and N-acetyl-D-neuraminic Acid Aldolase.
    Molecular biotechnology, 2018, Volume: 60, Issue:6

    Topics: Acetylglucosamine; Anabaena; Biotechnology; Carbohydrate Epimerases; Carrier Proteins; DNA, Recombinant; Escherichia coli; N-Acetylneuraminic Acid; Oxo-Acid-Lyases; Pyruvic Acid; Recombinant Proteins

2018
Synthetic redesign of central carbon and redox metabolism for high yield production of N-acetylglucosamine in Bacillus subtilis.
    Metabolic engineering, 2019, Volume: 51

    Topics: Acetyl Coenzyme A; Acetylglucosamine; Bacillus subtilis; Carbon; DNA, Bacterial; Gene Knockout Techniques; Glucose; Metabolic Engineering; NADP; Oxidation-Reduction; Polymerase Chain Reaction; Pyruvic Acid

2019
Combinatorial pathway enzyme engineering and host engineering overcomes pyruvate overflow and enhances overproduction of N-acetylglucosamine in Bacillus subtilis.
    Microbial cell factories, 2019, Jan-04, Volume: 18, Issue:1

    Topics: Acetoin; Acetylglucosamine; Animals; Bacillus subtilis; Bacterial Proteins; Batch Cell Culture Techniques; Caenorhabditis elegans; Caenorhabditis elegans Proteins; Glucosamine 6-Phosphate N-Acetyltransferase; Glucose; Hydrogen-Ion Concentration; Kinetics; Metabolic Engineering; Pyruvic Acid; Urease

2019
Enhanced N-acetyl-D-neuraminic production from glycerol and N-acetyl-D-glucosamine by metabolically engineered Escherichia coli with a two-stage pH-shift control strategy.
    Journal of industrial microbiology & biotechnology, 2019, Volume: 46, Issue:2

    Topics: Acetylglucosamine; Batch Cell Culture Techniques; Biocatalysis; Escherichia coli; Glycerol; Hydrogen-Ion Concentration; Metabolic Engineering; Microorganisms, Genetically-Modified; N-Acetylneuraminic Acid; Pyruvic Acid

2019
Metabolic Adaptation in Methicillin-Resistant
    American journal of respiratory cell and molecular biology, 2019, Volume: 61, Issue:2

    Topics: Acetylglucosamine; Adult; Animals; Biofilms; Bronchi; Bronchoalveolar Lavage Fluid; Cystic Fibrosis; Cytokines; Female; Fumarates; Gentamicins; Glucose; Humans; Lung Diseases; Malates; Male; Methicillin-Resistant Staphylococcus aureus; Mice; Mice, Inbred C57BL; Middle Aged; Phylogeny; Pneumonia, Staphylococcal; Pyruvic Acid; Staphylococcal Infections; Transcription, Genetic; Tricarboxylic Acids; Whole Genome Sequencing

2019
O-GlcNAcylated p53 in the liver modulates hepatic glucose production.
    Nature communications, 2021, 08-20, Volume: 12, Issue:1

    Topics: Acetylglucosamine; Animals; Base Sequence; Caloric Restriction; Cell Line; Colforsin; Diabetes Mellitus, Type 2; Epinephrine; Glucagon; Glucocorticoids; Gluconeogenesis; Glucose; Glycosylation; Hepatocytes; Humans; Hydrocortisone; Hyperglycemia; Insulin Resistance; Intracellular Signaling Peptides and Proteins; Liver; Mice, Inbred C57BL; Mice, Knockout; Obesity; Phosphoenolpyruvate Carboxykinase (GTP); Promoter Regions, Genetic; Protein Binding; Protein Stability; Pyruvic Acid; RNA, Messenger; Transcription, Genetic; Tumor Suppressor Protein p53

2021