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Journal Abstract Search

137 related items for PubMed ID: 9692897

  • 81. Retrobiosynthetic NMR studies with 13C-labeled glucose. Formation of gallic acid in plants and fungi.
    Werner I, Bacher A, Eisenreich W.
    J Biol Chem; 1997 Oct 10; 272(41):25474-82. PubMed ID: 9325260
    [Abstract] [Full Text] [Related]

  • 82. Biosynthetic production of 13C-labeled amino acids with site-specific enrichment.
    LeMaster DM, Cronan JE.
    J Biol Chem; 1982 Feb 10; 257(3):1224-30. PubMed ID: 7035446
    [Abstract] [Full Text] [Related]

  • 83. Pathway engineered enzymatic de novo purine nucleotide synthesis.
    Schultheisz HL, Szymczyna BR, Scott LG, Williamson JR.
    ACS Chem Biol; 2008 Aug 15; 3(8):499-511. PubMed ID: 18707057
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  • 84. An efficient and cost-effective isotope labeling protocol for proteins expressed in Escherichia coli.
    Cai M, Huang Y, Sakaguchi K, Clore GM, Gronenborn AM, Craigie R.
    J Biomol NMR; 1998 Jan 15; 11(1):97-102. PubMed ID: 9566315
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  • 85. Origin of 2,3-pentanedione and 2,3-butanedione in D-glucose/L-alanine Maillard model systems.
    Yaylayan VA, Keyhani A.
    J Agric Food Chem; 1999 Aug 15; 47(8):3280-4. PubMed ID: 10552645
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  • 86. Specific nitrogen-15 labelling of leucine residues in human growth hormone.
    Christensen T, Petersen J, Theisen CF, Bjerregaard K, Kristensen SM, Led JJ.
    Acta Chem Scand (Cph); 1993 Oct 15; 47(10):990-3. PubMed ID: 8240909
    [Abstract] [Full Text] [Related]

  • 87. Origin of carbohydrate degradation products in L-Alanine/D-[(13)C]glucose model systems.
    Yaylayan VA, Keyhani A.
    J Agric Food Chem; 2000 Jun 15; 48(6):2415-9. PubMed ID: 10888560
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  • 88.
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  • 91. Biosynthesis of cannabinoids. Incorporation experiments with (13)C-labeled glucoses.
    Fellermeier M, Eisenreich W, Bacher A, Zenk MH.
    Eur J Biochem; 2001 Mar 15; 268(6):1596-604. PubMed ID: 11248677
    [Abstract] [Full Text] [Related]

  • 92. Biosynthesis of cyclopentenylglycine from α-ketopimelate in Idesia polycarpa callus cultures.
    Tober I, Spener F.
    Plant Cell Rep; 1982 Oct 15; 1(5):193-6. PubMed ID: 24257705
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  • 93.
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  • 94. The First Step of Neurospora crassa Molybdenum Cofactor Biosynthesis: Regulatory Aspects under N-Derepressing and Nitrate-Inducing Conditions.
    Wajmann S, Hercher TW, Buchmeier S, Hänsch R, Mendel RR, Kruse T.
    Microorganisms; 2020 Apr 07; 8(4):. PubMed ID: 32272807
    [Abstract] [Full Text] [Related]

  • 95. Lessons From the Studies of a CC Bond Forming Radical SAM Enzyme in Molybdenum Cofactor Biosynthesis.
    Pang H, Yokoyama K.
    Methods Enzymol; 2018 Apr 07; 606():485-522. PubMed ID: 30097104
    [Abstract] [Full Text] [Related]

  • 96. C-C bond forming radical SAM enzymes involved in the construction of carbon skeletons of cofactors and natural products.
    Yokoyama K, Lilla EA.
    Nat Prod Rep; 2018 Jul 18; 35(7):660-694. PubMed ID: 29633774
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  • 97. Radical Breakthroughs in Natural Product and Cofactor Biosynthesis.
    Yokoyama K.
    Biochemistry; 2018 Jan 30; 57(4):390-402. PubMed ID: 29072833
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  • 98.
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  • 99. Molybdopterin biosynthesis-Mechanistic studies on a novel MoaA catalyzed insertion of a purine carbon into the ribose of GTP.
    Mehta AP, Abdelwahed SH, Begley TP.
    Biochim Biophys Acta; 2015 Sep 30; 1854(9):1073-7. PubMed ID: 25896388
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  • 100. Radical S-adenosylmethionine (SAM) enzymes in cofactor biosynthesis: a treasure trove of complex organic radical rearrangement reactions.
    Mehta AP, Abdelwahed SH, Mahanta N, Fedoseyenko D, Philmus B, Cooper LE, Liu Y, Jhulki I, Ealick SE, Begley TP.
    J Biol Chem; 2015 Feb 13; 290(7):3980-6. PubMed ID: 25477515
    [Abstract] [Full Text] [Related]

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