Journeys in Science: Glycobiology and Other Paths

Raymond A. Dwek

doi:10.1146/annurev-biochem-041612-095236

Journeys in Science: Glycobiology and Other Paths

Raymond A. Dwek¹
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Affiliations: Oxford Glycobiology Institute, Department of Biochemistry, University of Oxford, Oxford OX1 3QU, United Kingdom; email: [email protected]
Vol. 83:1-44 (Volume publication date June 2014) https://doi.org/10.1146/annurev-biochem-041612-095236
First published as a Review in Advance on January 15, 2014
© Annual Reviews

Abstract

My scientific journeys began at Oxford nearly 50 years ago. My paths have taken me from magnetic resonance through enzyme systems to antibodies, which led directly to glycobiology. Oxford University's first industrial grant helped the development of the technology for isolating and sequencing oligosaccharides from glycoproteins. This technology was disseminated through a spin-off company, Oxford GlycoSystems, and by the establishment of the Glycobiology Institute. The technology gave rise to the concept of glycoforms, which allow diversification of a protein's properties. Iminosugars, which are glucosidase inhibitors, can interfere with the initial steps of glycan processing on proteins and inhibit three-dimensional folding of glycoproteins. Glucosidase targets for therapy include viral envelope glycoproteins. Clinical trials of an iminosugar as an antiviral for dengue virus are under way. Another iminosugar activity, inhibition of glycolipid synthesis, resulted in a drug for Gaucher disease, which was approved worldwide in 2002. The success of the company and the institute allowed me to undertake several initiatives, in the United Kingdom and abroad, that might help the paths of future generations of scientists.

Keyword(s): antibodies, Autobiography, Gaucher disease, glycoforms, glycoprotein folding, iminosugar antivirals, oligosaccharide sequencing

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Literature Cited

Price NC, Dwek RA, Ratcliffe G, Wormald MR. 1. 1974. Principles and Problems in Physical Chemistry for Biochemists Oxford, UK: Oxford Univ. Press, 3rd. ed.
Dwek RA, Navon G. 2. 1972. On boiling an egg. Nature 240:491 [Google Scholar]
Campbell ID, Dwek RA. 3. Biological Spectroscopy London: Benjamin Cummings
Dwek RA.4. 1973. Nuclear Magnetic Resonance in Biochemistry: Applications to Enzyme Systems London: Clarendon
Dwek Wain-Hobson RA S, Dower SK, Gettins P, Sutton B. 5. et al. 1977. Structure of an antibody combining site by magnetic resonance. Nature 266:31–37 [Google Scholar]
Burton DR, Boyd J, Brampton AD, Easterbrook-Smith SB, Emanuel EJ. 6. et al. 1980. The C1q receptor site on immunoglobulin G. Nature 288:338–44 [Google Scholar]
Parekh RB, Dwek RA, Sutton BJ, Fernandes DL, Leung A. 7. et al. 1985. Association of rheumatoid arthritis and primary osteoarthritis with changes in the glycosylation pattern of total serum IgG. Nature 316:452–57 [Google Scholar]
Rademacher TW, Parekh RB, Dwek RA. 8. 1988. Glycobiology. Annu. Rev. Biochem. 57:785–838 [Google Scholar]
Parekh RB, Tse AGC, Dwek RA, Williams AF, Rademacher TW. 9. 1987. Tissue-specific N-glycosylation, site-specific oligosaccharide patterns and lentil lectin recognition of rat Thy-1. EMBO J. 6:1233–44 [Google Scholar]
Kornfeld R, Kornfeld S. 10. 1985. Assembly of asparagine-linked oligosaccharides. Annu. Rev. Biochem. 54:631–64 [Google Scholar]
Dwek RA.11. 2007. The Other Green Line and the Sweetest Tomato in the World Washington, DC: Sci. Technol. Bus. Div., Kluge Cent., Libr. Congr http://www.loc.gov/rr/scitech/greenline.html
Dwek RA.12. 2007. George Washington and the First Mass Military Inoculation Washington, DC: Sci. Technol. Bus. Div., Kluge Cent., Libr. Congr http://www.loc.gov/rr/scitech/GW&smallpoxinoculation.html

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Article Type: Review Article

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Annual Review of Biochemistry

Volume 83, 2014

Review Article

Free

Journeys in Science: Glycobiology and Other Paths

Abstract

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Most Cited Most Cited RSS feed

THE UBIQUITIN SYSTEM

Protein Misfolding, Functional Amyloid, and Human Disease

GLUTATHIONE

THE GREEN FLUORESCENT PROTEIN

G PROTEINS: TRANSDUCERS OF RECEPTOR-GENERATED SIGNALS

ASSEMBLY OF ASPARAGINE-LINKED OLIGOSACCHARIDES

TGF-β SIGNAL TRANSDUCTION

Lipopolysaccharide Endotoxins

ras GENES

THE HEAT-SHOCK RESPONSE