NMR for Structural Glycoscience. Part I – The Nuclear Overhauser Effect

Juan-Carlos Munoz-Garcia, Jesus Angulo Alvarez & Pedro Manuel Nieto Mesa

References

  • Angulo,J., P. M. Enriquez-Navas and P. M. Nieto, Chemistry- A European Journal 2010, 16, 7803-7812.
  • Arkin, M.R. and J. A. Wells, Nat Rev Drug Discov 2004, 3, 301-317.
  • Asensio, J.L., F. J. Canada and J. Jimenez-Barbero, European Journal of Biochemistry 1995, 233, 618-630.
  • Balaram, P., A. A. Bothner-By and E. Breslow, Journal of the American Chemical Society 1972, 94, 4017-4018.
  • Balaram, P., A. A. Bothner-By and J. Dadok, Journal of the American Chemical Society 1972, 94, 4015-4017.
  • Berthault, P., N. Birlirakis, G. Rubinstenn, P. Sinay and H. Desvaux, Journal of Biomolecular NMR 1996, 8, 23-35.
  • Billeter, M., G. Wagner and K. Wüthrich, Journal of Biomolecular NMR 2008, 42, 155-158.
  • Bothnerby, A.A., R. L. Stephens, J. M. Lee, C. D. Warren and R. W. Jeanloz, Journal of the American Chemical Society 1984, 106, 811-813.
  • Cavanagh, J., W. J. Fairbrother, A. G. Palmer and N. J. Skelton, Protein NMR Spectroscopy : Principles and Practice, Elsevier Science, 1995.
  • Chandrasekaran, R. and A. Giacometti, 1997, p. 54.
  • Claridge, T.D.W. High-Resolution NMR Techniques in Organic Chemistry, Elsevier Science Limited, 2009.
  • Clore, G.M. and A. M. Gronenborn, Journal of Magnetic Resonance 1983, 53, 423-442.
  • Desvaux, H., P. Berthault, N. Birlirakis and M. Goldman, Journal of Magnetic Resonance Series A 1994, 108, 219-229.
  • Enríquez-Navas, P.M., CSIC-University of Sevilla 2011.
  • Enríquez-Navas, P.M., M. Marradi, D. Padro, J. Angulo and S. Penadés, Chemistry- A European Journal 2011, 17, 1547-1560.
  • Farmer Ii B.T., S. Macura and L. R. Brown, Journal of Magnetic Resonance 1988, 80, 1-22.
  • Goldflam,M., T. Tarragó, M. Gairí and E. Giralt in NMR Studies of Protein–Ligand Interactions, Vol. 831 Eds. : A. Shekhtman and D. S. Burz), Humana Press, 2012, pp. 233-259.
  • Guzzi, G., CSIC-University of Sevilla 2013
  • Hricovini,M., M. Guerrini and A. Bisio, European Journal of Biochemistry 1999, 261, 789-801.
  • Huang, S.-Y., S. Z. Grinter and X. Zou, Physical Chemistry Chemical Physics 2010, 12, 12899-12908.
  • Joachimiak, A., Curr Opin Struct Biol 2009, 19, 573-584.
  • Jonker, N., J. Kool, H. Irth and W. M. A. Niessen, Analytical and Bioanalytical Chemistry 2011, 399, 2669-2681.
  • Kay, L.E., Journal of Magnetic Resonance 2011, 213, 492-494.
  • Keiser, M.J., J. J. Irwin and B. K. Shoichet, Biochemistry 2010, 49, 10267-10276.
  • Luk, K.C., E. G. Hyde, J. Q. Trojanowski and V. M. Y. Lee, Biochemistry 2007, 46, 12522-12529.
  • Mayer, M. and T. L. James, Journal of the American Chemical Society 2004, 126, 4453-4460..
  • Mayer, M. and B. Meyer, Journal of the American Chemical Society2001, 123, 6108-6117.
  • Mayer, M. and B. Meyer, Angewandte Chemie International Edition 1999, 38, 1784-1788.
  • Meyer, B., T. Weimar and T. Peters, European Journal of Biochemistry 1997, 246, 705-709.
  • Meyer, B. and T. Peters, Angewandte Chemie International Edition2003, 42, 864-890.
  • Metz, J.T. and P. J. Hajduk, Current Opinion in Chemical Biology 2010, 14, 498-504.
  • Morelli, X., R. Bourgeas and P. Roche, Current Opinion in Chemical Biology 2011, 15, 475-481.
  • Moseley, H.N.B., E. V. Curto and N. R. Krishna, Journal of Magnetic Resonance Series B 1995, 108, 243-261.
  • Neuhaus, D. and M. P. Williamson, The Nuclear Overhauser Effect in Structural and Conformational Analysis, Wiley-VCH, New York, 2000.
  • Ni, F., Progress in Nuclear Magnetic Resonance Spectroscopy 1994, 26, 517-606.
  • Niesen, F.H, H. Berglund and M. Vedadi, Nat. Protocols 2007, 2, 2212-2221.
  • Pellecchia, M., I. Bertini, D. Cowburn, C. Dalvit, E. Giralt, W. Jahnke, T. L. James, S. W. Homans, H. Kessler, C. Luchinat, B. Meyer, H. Oschkinat, J. Peng, H. Schwalbe and G. Siegal, Nature Reviews Drug Discovery 2008, 7, 738-745.
  • Peng, J.W., J. Moore and N. Abdul-Manan, Progress in Nuclear Magnetic Resonance Spectroscopy 2004, 44, 225-256.
  • Pérez, S. Oligosaccharide and Polysaccharide Conformations by Diffraction Methods, in Comprehensive Glycoscience, B. Analytical aspects (scope and limitations), 2007, 347-387.
  • Pérez, S. and H. Chanzy, Journal of Electron Microscopy Technique1989, 11, 280-285.
  • Post, C.B., Current Opinion in Structural Biology 2003, 13, 581-588.
  • Ravikumar, M. and A. A. Bothner-By, Journal of the American Chemical Society 1993, 115, 7537-7538.
  • Renaud, J._P. and M.-A. Delsuc, Current Opinion in Pharmacology2009, 9, 622-628.
  • Thépaut, M., C. Guzzi, I. Sutkeviciute, S. Sattin, R. Ribeiro-Viana, N. Varga, E. Chabrol, J. Rojo, A. Bernardi, J. Angulo, P. M. Nieto and F. Fieschi, Journal of the American Chemical Society 2013, 135, 2518-2529.
  • Trott, O. and A. J. Olson, Journal of Computational Chemistry 2010, 31, 455-461.
  • Yan, J.L., A. D. Kline, H. P. Mo, M. J. Shapiro and E. R. Zartler, Journal of Magnetic Resonance 2003, 163, 270-276.
  • Wells, J.A. and C. L. McClendon, Nature 2007, 450, 1001-1009.
  • Woods, R.J. and M. B. Tessier, Curr Opin Struct Biol 2010, 20, 575-583.