Skip to main content
SpringerLink
Log in

A full assignment of proton resonances for an α(1-3)-linked fucose residue in keratan sulphate from bovine articular cartilage

  • Papers
  • Published:
Glycoconjugate Journal Aims and scope Submit manuscript

Abstract

Full proton NMR assignments have been achieved for the α(1-3)-linked fucose residues contained in alkaline borohydride reduced keratan sulphate chains derived from bovine articular cartilage. This involved 500 MHz spectroscopy at 60°C and included COSY and RELAYED-COSY determinations.

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

Similar content being viewed by others

Abbreviations

KS:

keratan sulphate

TSP:

sodium 3-trimethylsilylpropionate

Fuc:

α-l-fucose

Gal:

β-d-galactose

GalNAc-ol:

N-acetylgalactosaminitol

GlcNAc:

β-N-acetyl-d-glucosamine

References

  1. Meyer K, Linker A, Davidson EA, Weissman B (1953)J Biol Chem 205:611.

    Google Scholar 

  2. Meyer K, Hoffman P, Linker A (1958)Science 128:896.

    Google Scholar 

  3. Gardell S (1955)Acta Chem Scand 9:1035.

    Google Scholar 

  4. Gardell S (1957)Acta Chem Scand 11:668–75.

    Google Scholar 

  5. Seno N, Meyer K, Anderson B, Hoffman P (1965)J Biol Chem 240:1005–10.

    Google Scholar 

  6. Bhavanandran VP, Meyer K (1968)J Biol Chem 243:1052–9.

    Google Scholar 

  7. Rovis L, Kabat EA, Pereira MEA, Feizi T (1973)Biochemistry 12:5355–60.

    Google Scholar 

  8. Gooi HC, Feizi T, Kapadia A, Knowles BB, Solter D, Evans MJ (1981)Nature 292:156–8.

    Google Scholar 

  9. Hounsell EF, Gooi HC, Feizi T (1981)FEBS Lett 131:279–82.

    Google Scholar 

  10. Krusius T, Finne J (1978)Eur J Biochem 84:395–403.

    Google Scholar 

  11. Hanisch F-G, Egge H, Peter-Katalinič J, Uhlenbruck G, Dienst C, Fangmann R (1985)Eur J Biochem 152:343–51.

    Google Scholar 

  12. Van Halbeek H, Dorland L, Vliegenthart JFG, Hull WE, Lamblin G, Lhermitte M, Boersma A, Roussel P (1982)Eur J Biochem 127:7–20.

    Google Scholar 

  13. Lamblin G, Boersma A, Lhermitte M, Roussel P, Mutsaers JHGM, Van Halbeek H, Vliegenthart JFG (1984)Eur J Biochem 143:227–36.

    Google Scholar 

  14. Lamblin G, Boersma A, Klein A, Roussel P, Van Halbeek H, Vliegenthart JFG (1984)J Biol Chem 259:9051–8.

    Google Scholar 

  15. Breg J, Van Halbeek H, Vliegenthart JFG, Lamblin G, Houvenaghel M-C, Roussel P (1987)Eur J Biochem 168:57–68.

    Google Scholar 

  16. Klein A, Lamblin G, Lhermitte M, Roussel P, Breg J, Van Halbeek H, Vliegenthart JFG (1988)Eur J Biochem 171:631–42.

    Google Scholar 

  17. Breg J, Van Halbeek H, Vliegenthart JFG, Klein A, Lamblin G, Roussel P (1988)Eur J Biochem 171:643–54.

    Google Scholar 

  18. Hounsell EF (1987)Chem Soc Rev 16:161–85.

    Google Scholar 

  19. Hounsell EF, Jones NJ, Gooi HC, Feizi T, Donald ASR, Feeney J (1988)Carbohydr Res 178:67–78.

    Google Scholar 

  20. Pierce-Crétel A, Decottignies J-P, Wieruszeski J-M, Strecker G, Montreuil J, Spik G (1989)Eur J Biochem 182:457–76.

    Google Scholar 

  21. Thornton DJ, Morris HG, Cockin GH, Huckerby TN, Nieduszynski IA (1989)Glycoconjugate J 6:209–18.

    Google Scholar 

  22. Thornton DJ, Morris HG, Cockin GH, Huckerby TN, Nieduszynski IA, Carlstedt I, Hardingham TE, Ratcliffe A (1989)Biochem J 260:277–82.

    Google Scholar 

  23. Bray BA, Lieberman R, Meyer K (1967)J Biol Chem 242:3373–80.

    Google Scholar 

  24. Nieduszynski IA, Huckerby TN, Dickenson JM, Brown GM, Tai Gui-Hua, Morris HG, Eady S (1990)Biochem J 271:243–5.

    Google Scholar 

  25. Tai Gui-Hua, Brown GM, Morris HG, Huckerby TN, Nieduszynski IA (1991)Biochem J 273:307–10.

    Google Scholar 

  26. Carlson DM (1968)J Biol Chem 243:616–26.

    Google Scholar 

  27. Sanderson PN, Huckerby TN, Nieduszynski IA (1987)Biochem J 243:175–81.

    Google Scholar 

  28. Bouwstra JB, Spoelstra EC, De Waard P, Leefgang BR, Kamerling JP, Vliegenthart JFG (1990)Eur J Biochem 190:113–22.

    Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Department of Chemistry, Lancaster University, Bailrigg, LA1 4YA, Lancaster, UK

    Thomas N. Huckerby

  2. Division of Biological Sciences, Institute of Environmental and Biological Sciences, Lancaster University, Bailrigg, LA1 4YQ, Lancaster, UK

    Ian A. Nieduszynski, Gavin M. Brown & Gordon H. Cockin

Authors
  1. Thomas N. Huckerby
    View author publications

    You can also search for this author in PubMed Google Scholar

  2. Ian A. Nieduszynski
    View author publications

    You can also search for this author in PubMed Google Scholar

  3. Gavin M. Brown
    View author publications

    You can also search for this author in PubMed Google Scholar

  4. Gordon H. Cockin
    View author publications

    You can also search for this author in PubMed Google Scholar

Rights and permissions

Reprints and permissions

About this article

Cite this article

Huckerby, T.N., Nieduszynski, I.A., Brown, G.M. et al. A full assignment of proton resonances for an α(1-3)-linked fucose residue in keratan sulphate from bovine articular cartilage. Glycoconjugate J 8, 39–44 (1991). https://doi.org/10.1007/BF00731641

Download citation

  • Received:

  • Issue Date:

  • DOI: https://doi.org/10.1007/BF00731641

Keywords

Search

Navigation