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Journal Abstract Search


245 related items for PubMed ID: 30602272

  • 21. Efficient modification of the Pseudomonas aeruginosa toxin 2-heptyl-1-hydroxyquinolin-4-one by three Bacillus glycosyltransferases with broad substrate ranges.
    Thierbach S, Sartor P, Yücel O, Fetzner S.
    J Biotechnol; 2020 Jan 20; 308():74-81. PubMed ID: 31786106
    [Abstract] [Full Text] [Related]

  • 22. High-throughput mass-spectrometry monitoring for multisubstrate enzymes: determining the kinetic parameters and catalytic activities of glycosyltransferases.
    Yang M, Brazier M, Edwards R, Davis BG.
    Chembiochem; 2005 Feb 20; 6(2):346-57. PubMed ID: 15678424
    [Abstract] [Full Text] [Related]

  • 23. Structure of the nucleotide-diphospho-sugar transferase, SpsA from Bacillus subtilis, in native and nucleotide-complexed forms.
    Charnock SJ, Davies GJ.
    Biochemistry; 1999 May 18; 38(20):6380-5. PubMed ID: 10350455
    [Abstract] [Full Text] [Related]

  • 24. Synthesis of unnatural sugar nucleotides and their evaluation as donor substrates in glycosyltransferase-catalyzed reactions.
    Khaled A, Ivannikova T, Augé C.
    Carbohydr Res; 2004 Nov 15; 339(16):2641-9. PubMed ID: 15519322
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  • 25. Bioconversion of Tetracycline Antibiotics to Novel Glucoside Derivatives by Single-Vessel Multienzymatic Glycosylation.
    Pandey RP, Chu LL, Kim TS, Sohng JK.
    J Microbiol Biotechnol; 2018 Feb 28; 28(2):298-304. PubMed ID: 29212298
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  • 26. Probing the role of highly conserved residues forming the acceptor binding pocket of the promiscuous glycosyltransferase MGT in defining the specificity towards a panel of flavonoids.
    Xie C, Han W, Wang PG, Cheng J.
    Biochemistry (Mosc); 2013 May 28; 78(5):536-41. PubMed ID: 23848156
    [Abstract] [Full Text] [Related]

  • 27. Functional Characterization and Structural Basis of an Efficient Di-C-glycosyltransferase from Glycyrrhiza glabra.
    Zhang M, Li FD, Li K, Wang ZL, Wang YX, He JB, Su HF, Zhang ZY, Chi CB, Shi XM, Yun CH, Zhang ZY, Liu ZM, Zhang LR, Yang DH, Ma M, Qiao X, Ye M.
    J Am Chem Soc; 2020 Feb 19; 142(7):3506-3512. PubMed ID: 31986016
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  • 28. Change of Bacillus cereus flavonoid O-triglucosyltransferase into flavonoid O-monoglucosyltransferase by error-prone polymerase chain reaction.
    Jung NR, Joe EJ, Kim BG, Ahn BC, Park JC, Chong Y, Ahn JH.
    J Microbiol Biotechnol; 2010 Oct 19; 20(10):1393-6. PubMed ID: 21030823
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  • 29. Molecular mechanism of elongation factor 1A inhibition by a Legionella pneumophila glycosyltransferase.
    Hurtado-Guerrero R, Zusman T, Pathak S, Ibrahim AF, Shepherd S, Prescott A, Segal G, van Aalten DM.
    Biochem J; 2010 Feb 24; 426(3):281-92. PubMed ID: 20030628
    [Abstract] [Full Text] [Related]

  • 30. Structural dissection of sterol glycosyltransferase UGT51 from Saccharomyces cerevisiae for substrate specificity.
    Chen L, Zhang Y, Feng Y.
    J Struct Biol; 2018 Dec 24; 204(3):371-379. PubMed ID: 30395931
    [Abstract] [Full Text] [Related]

  • 31. Biochemical Characterization of Recombinant UDP-Glucose:Sterol 3-O-Glycosyltransferase from Micromonospora rhodorangea ATCC 31603 and Enzymatic Biosynthesis of Sterol-3-O-β-Glucosides.
    Hoang NH, Hong SY, Huong NL, Park JW.
    J Microbiol Biotechnol; 2016 Mar 24; 26(3):477-82. PubMed ID: 26643965
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  • 32. Role of PelF in pel polysaccharide biosynthesis in Pseudomonas aeruginosa.
    Ghafoor A, Jordens Z, Rehm BH.
    Appl Environ Microbiol; 2013 May 24; 79(9):2968-78. PubMed ID: 23435893
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  • 33. Structural evidence of a passive base-flipping mechanism for AGT, an unusual GT-B glycosyltransferase.
    Larivière L, Sommer N, Moréra S.
    J Mol Biol; 2005 Sep 09; 352(1):139-50. PubMed ID: 16081100
    [Abstract] [Full Text] [Related]

  • 34. Glycosylation of flavonoids with a glycosyltransferase from Bacillus cereus.
    Hyung Ko J, Gyu Kim B, Joong-Hoon A.
    FEMS Microbiol Lett; 2006 May 09; 258(2):263-8. PubMed ID: 16640583
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  • 35. Crystal Structures of the C-Glycosyltransferase UGT708C1 from Buckwheat Provide Insights into the Mechanism of C-Glycosylation.
    Liu M, Wang D, Li Y, Li X, Zong G, Fei S, Yang X, Lin J, Wang X, Shen Y.
    Plant Cell; 2020 Sep 09; 32(9):2917-2931. PubMed ID: 32699169
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  • 36. Identification of residues that confer sugar selectivity to UDP-glycosyltransferase 3A (UGT3A) enzymes.
    Meech R, Rogers A, Zhuang L, Lewis BC, Miners JO, Mackenzie PI.
    J Biol Chem; 2012 Jul 13; 287(29):24122-30. PubMed ID: 22621930
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  • 37. The Vaccinia Virus H3 Envelope Protein, a Major Target of Neutralizing Antibodies, Exhibits a Glycosyltransferase Fold and Binds UDP-Glucose.
    Singh K, Gittis AG, Gitti RK, Ostazeski SA, Su HP, Garboczi DN.
    J Virol; 2016 May 15; 90(10):5020-5030. PubMed ID: 26937025
    [Abstract] [Full Text] [Related]

  • 38. Glycosyltransferase cascades for natural product glycosylation: Use of plant instead of bacterial sucrose synthases improves the UDP-glucose recycling from sucrose and UDP.
    Gutmann A, Lepak A, Diricks M, Desmet T, Nidetzky B.
    Biotechnol J; 2017 Jul 15; 12(7):. PubMed ID: 28429856
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  • 39. Mutational analysis of the Medicago glycosyltransferase UGT71G1 reveals residues that control regioselectivity for (iso)flavonoid glycosylation.
    He XZ, Wang X, Dixon RA.
    J Biol Chem; 2006 Nov 10; 281(45):34441-7. PubMed ID: 16982612
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  • 40. The novel UDP glycosyltransferase 3A2: cloning, catalytic properties, and tissue distribution.
    MacKenzie PI, Rogers A, Elliot DJ, Chau N, Hulin JA, Miners JO, Meech R.
    Mol Pharmacol; 2011 Mar 10; 79(3):472-8. PubMed ID: 21088224
    [Abstract] [Full Text] [Related]


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