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Prediction of functional class of proteins and peptides irrespective of sequence homology by support vector machines.


ABSTRACT: Various computational methods have been used for the prediction of protein and peptide function based on their sequences. A particular challenge is to derive functional properties from sequences that show low or no homology to proteins of known function. Recently, a machine learning method, support vector machines (SVM), have been explored for predicting functional class of proteins and peptides from amino acid sequence derived properties independent of sequence similarity, which have shown promising potential for a wide spectrum of protein and peptide classes including some of the low- and non-homologous proteins. This method can thus be explored as a potential tool to complement alignment-based, clustering-based, and structure-based methods for predicting protein function. This article reviews the strategies, current progresses, and underlying difficulties in using SVM for predicting the functional class of proteins. The relevant software and web-servers are described. The reported prediction performances in the application of these methods are also presented.

SUBMITTER: Tang ZQ 

PROVIDER: S-EPMC2789692 | biostudies-literature | 2009 Nov

REPOSITORIES: biostudies-literature

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Prediction of functional class of proteins and peptides irrespective of sequence homology by support vector machines.

Tang Zhi Qun ZQ   Lin Hong Huang HH   Zhang Hai Lei HL   Han Lian Yi LY   Chen Xin X   Chen Yu Zong YZ  

Bioinformatics and biology insights 20091124


Various computational methods have been used for the prediction of protein and peptide function based on their sequences. A particular challenge is to derive functional properties from sequences that show low or no homology to proteins of known function. Recently, a machine learning method, support vector machines (SVM), have been explored for predicting functional class of proteins and peptides from amino acid sequence derived properties independent of sequence similarity, which have shown prom  ...[more]

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