Glycobiology

Glycobiology Advance Access published online on March 13, 2007
Glycobiology, doi:10.1093/glycob/cwm027

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The isolated MUC5AC gene product from human ocular mucin displays intramolecular conformational heterogeneity

Andrew N. Round^1,*, Terence J. McMaster¹, Mervyn J. Miles¹, Anthony P. Corfield² and Monica Berry³

¹ H.H. Wills Physics Laboratory, University of Bristol, Tyndall Avenue, Bristol BS8 1TL, UK
² Mucin Research Group, Clinical Science at South Bristol, University of Bristol, Bristol Royal Infirmary, Marlborough Street, Bristol, BS2 8HW, UK
³ Mucin Research Group, Clinical Science at South Bristol, University of Bristol, Bristol Eye Hospital, Lower Maudlin Street, Bristol, BS1 2LX, UK

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^* Corresponding author, email andy.round{at}bristol.ac.uk, phone +44 (0)117 33 17083, fax +44 (0)117 925 5624

Received on October 2, 2006; revised on February 28, 2007; accepted on March 1, 2007

Atomic Force Microscopy (AFM) has been used to show that human ocular mucins contain at least three distinct polymer conformations, separable by isopycnic density gradient centrifugation. In this work we have used affinity purification against the anti-mucin peptide core monoclonal antibody 45M1 to isolate MUC5AC gene products, a major component of human ocular mucins. AFM images confirm that the affinity-purified polymers adopt distinct conformations that co-identify with two of those observed in the parent population, and further reveal that these two different conformations can be present within the same polymer. AFM images of the complexes formed after incubation of 45M1 with the parent sample reveals different rates of binding to the two MUC5AC polymer types. The variability of gene products within a mucin population was revealed by analysing the height distributions along the polymer contour and periodicities in distances between occupied antibody binding sites. AFM analysis of mucin polymers at the single molecule level provides new information about the genetic origins of individual polymers and the contributions of glycosylation to the physicochemical properties of mucins, which can be correlated with information obtained from biochemistry, antibody binding assays and molecular biology techniques.

Key words: mucin / muc5ac / atomic force microscopy

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