Reid:Publications

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Publications

  1. Reid CW, Vinogradov E, Li J, Jarrell HC, Logan SM, and Brisson JR. Structural characterization of surface glycans from Clostridium difficile. Carbohydr Res. 2012 Jun 1;354:65-73. DOI:10.1016/j.carres.2012.02.002 | PubMed ID:22560631 | HubMed [Paper1]
  2. Twine SM, Reid CW, Aubry A, McMullin DR, Fulton KM, Austin J, and Logan SM. Motility and flagellar glycosylation in Clostridium difficile. J Bacteriol. 2009 Nov;191(22):7050-62. DOI:10.1128/JB.00861-09 | PubMed ID:19749038 | HubMed [Paper2]
  3. Reid CW, Stupak J, and Szymanski CM. Characterization of lipid-linked oligosaccharides by mass spectrometry. Methods Mol Biol. 2010;600:187-97. DOI:10.1007/978-1-60761-454-8_13 | PubMed ID:19882129 | HubMed [Paper3]
  4. Reid CW, Stupak J, Szymanski CM, and Li J. Analysis of bacterial lipid-linked oligosaccharide intermediates using porous graphitic carbon liquid chromatography-electrospray ionization mass spectrometry: heterogeneity in the polyisoprenyl carrier revealed. Anal Chem. 2009 Oct 15;81(20):8472-8. DOI:10.1021/ac9013622 | PubMed ID:19772334 | HubMed [Paper4]
  5. Reid CW, Stupak J, Chen MM, Imperiali B, Li J, and Szymanski CM. Affinity-capture tandem mass spectrometric characterization of polyprenyl-linked oligosaccharides: tool to study protein N-glycosylation pathways. Anal Chem. 2008 Jul 15;80(14):5468-75. DOI:10.1021/ac800079r | PubMed ID:18547063 | HubMed [Paper5]
  6. Chen MM, Weerapana E, Ciepichal E, Stupak J, Reid CW, Swiezewska E, and Imperiali B. Polyisoprenol specificity in the Campylobacter jejuni N-linked glycosylation pathway. Biochemistry. 2007 Dec 18;46(50):14342-8. DOI:10.1021/bi701956x | PubMed ID:18034500 | HubMed [Paper6]
  7. Reid CW, Legaree BA, and Clarke AJ. Role of Ser216 in the mechanism of action of membrane-bound lytic transglycosylase B: further evidence for substrate-assisted catalysis. FEBS Lett. 2007 Oct 16;581(25):4988-92. DOI:10.1016/j.febslet.2007.09.037 | PubMed ID:17910958 | HubMed [Paper7]
  8. Scheurwater E, Reid CW, and Clarke AJ. Lytic transglycosylases: bacterial space-making autolysins. Int J Biochem Cell Biol. 2008;40(4):586-91. DOI:10.1016/j.biocel.2007.03.018 | PubMed ID:17468031 | HubMed [Paper8]
  9. Reid CW, Blackburn NT, and Clarke AJ. Role of arginine residues in the active site of the membrane-bound lytic transglycosylase B from Pseudomonas aeruginosa. Biochemistry. 2006 Feb 21;45(7):2129-38. DOI:10.1021/bi052342t | PubMed ID:16475802 | HubMed [Paper9]
  10. Reid CW, Brewer D, and Clarke AJ. Substrate binding affinity of Pseudomonas aeruginosa membrane-bound lytic transglycosylase B by hydrogen-deuterium exchange MALDI MS. Biochemistry. 2004 Sep 7;43(35):11275-82. DOI:10.1021/bi049496d | PubMed ID:15366937 | HubMed [Paper10]
  11. Reid CW, Blackburn NT, Legaree BA, Auzanneau FI, and Clarke AJ. Inhibition of membrane-bound lytic transglycosylase B by NAG-thiazoline. FEBS Lett. 2004 Sep 10;574(1-3):73-9. DOI:10.1016/j.febslet.2004.08.006 | PubMed ID:15358542 | HubMed [Paper11]
  12. ISBN:9781904455950 [Book1]

All Medline abstracts: PubMed | HubMed

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