Predicting the linkage sites in glycoproteins using bio-basis function neural network

doi:10.1093/bioinformatics/bth001

Bioinformatics Advance Access originally published online on January 29, 2004

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Predicting the linkage sites in glycoproteins using bio-basis function neural network

Zheng Rong Yang ¹^,* and Kuo-Chen Chou ²^,3

¹ School of Engineering and Computer Science, Exeter University, Exeter EX4 4QF, UK, ² Gordon Life Science Institute, Kalamazoo, MI 49009, USA and ³ Tianjin Institute of Bioinformatics and Drug Discovery (TIBDD), Tianjin, China

Received on May 13, 2003 ; revised on August 4, 2003 ; accepted on August 7, 2003
Advance Access Publication January 29, 2004

Motivation: Although, it is known that O-glycosidically linkedoligosaccharides are commonly conjugated to a serine, threonineor hydroxylysine residue of the polypeptide, the chemical natureof the anchoring monosaccharide and the size of the oligosaccharideunit varies. Among different types, O-linked or mucin-type oligosaccharidesare intimately involved in the secretion of proteins, be theyenzymes, hormones or structural glycoproteins. Knowledge ofthe linkage sites in glycoproteins is critical to the designof specific and efficient inhibitors against the enzyme to catalysethe formation of the carbohydrate–peptide linkage.

Results: We present a method for predicting the linkage sitesin O-linked glycoproteins using bio-basis function neural networks.The mean prediction accuracy of this method is 91.15 ±2.75% while it is 82.28 ± 6.45% using back-propagationneural networks. Importantly, this method has significantlyreduced the CPU time for modelling.

Availability: The software and the data used in this study canbe downloaded from http://www.dcs.ex.ac.uk/~zryang for freeacademic use.

Contact: Z.R.Yang{at}exeter.ac.uk

^* To whom correspondence should be addressed.

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