NetCGlyc 1.0: prediction of mammalian C-mannosylation sites

doi:10.1093/glycob/cwm050

Glycobiology Advance Access originally published online on May 9, 2007
Glycobiology 2007 17(8):868-876; doi:10.1093/glycob/cwm050

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NetCGlyc 1.0: prediction of mammalian C-mannosylation sites

Karin Julenius

Department of Medical Biochemistry and Biophysics, Karolinska Institutet, SE-171 77 Stockholm, Sweden and Stockholm Bioinformatics Center, Albanova, Stockholm University, SE-106 91 Stockholm, Sweden

To whom correspondence should be addressed; Tel: +46 8 52486976; fax: +46 8 313445; e-mail: karin.julenius{at}sbc.su.se

Received on March 21, 2007; revised on May 3, 2007; accepted on May 5, 2007

C-mannosylation is the attachment of an ${alpha}$ -mannopyranose to atryptophan via a C–C linkage. The sequence WXXW, in whichthe first Trp becomes mannosylated, has been suggested as aconsensus motif for the modification, but only two-thirds ofknown sites follow this rule. We have gathered a data set of69 experimentally verified C-mannosylation sites from the literature.We analyzed these for sequence context and found that apartfrom Trp in position +3, Cys is accepted in the same position.We also find a clear preference in position +1, where a smalland/or polar residue (Ser, Ala, Gly, and Thr) is preferred anda Phe or a Leu residue discriminated against. The Protein DataBank was searched for structural information, and five structuresof C-mannosylated proteins were obtained. We showed that modifiedtryptophan residues are at least partly solvent exposed. A methodpredicting the location of C-mannosylation sites in proteinswas developed using a neural network approach. The best overallnetwork used a 21-residue sequence input window and informationon the presence/absence of the WXXW motif. NetCGlyc 1.0 correctlypredicts 93% of both positive and negative C-mannosylation sites.This is a significant improvement over the WXXW consensus motifitself, which only identifies 67% of positive sites. NetCGlyc1.0 is available at http://www.cbs.dtu.dk/services/NetCGlyc/.Using NetCGlyc 1.0, we scanned the human genome and found 2573exported or transmembrane transcripts with at least one predictedC-mannosylation site.

Key words: C-mannosylation / machine learning / neural networks / prediction

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