Hierarchical classification of G-protein-coupled receptors with data-driven selection of attributes and classifiers

A. Secker; M.N. Davies; A A Freitas; E.B. Clark; J. Timmis; Darren R. Flower

doi:10.1504/IJDMB.2010.032150

Hierarchical classification of G-protein-coupled receptors with data-driven selection of attributes and classifiers

A. Secker, M.N. Davies, A A Freitas, E.B. Clark, J. Timmis, Darren R. Flower

Research output: Contribution to journal › Article › peer-review

Abstract

We address the important bioinformatics problem of predicting protein function from a protein's primary sequence. We consider the functional classification of G-Protein-Coupled Receptors (GPCRs), whose functions are specified in a class hierarchy. We tackle this task using a novel top-down hierarchical classification system where, for each node in the class hierarchy, the predictor attributes to be used in that node and the classifier to be applied to the selected attributes are chosen in a data-driven manner. Compared with a previous hierarchical classification system selecting classifiers only, our new system significantly reduced processing time without significantly sacrificing predictive accuracy.

Original language	English
Pages (from-to)	191-210
Number of pages	20
Journal	International Journal of Data Mining and Bioinformatics
Volume	4
Issue number	2
DOIs	https://doi.org/10.1504/IJDMB.2010.032150
Publication status	Published - Mar 2010

Keywords

hierarchical classification
supervised learning
attribute selection
feature selection
classifier selection
protein function prediction
GPCR
G-protein coupled receptor
bioinformatics

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abstract = "We address the important bioinformatics problem of predicting protein function from a protein's primary sequence. We consider the functional classification of G-Protein-Coupled Receptors (GPCRs), whose functions are specified in a class hierarchy. We tackle this task using a novel top-down hierarchical classification system where, for each node in the class hierarchy, the predictor attributes to be used in that node and the classifier to be applied to the selected attributes are chosen in a data-driven manner. Compared with a previous hierarchical classification system selecting classifiers only, our new system significantly reduced processing time without significantly sacrificing predictive accuracy.",

keywords = "hierarchical classification, supervised learning, attribute selection, feature selection, classifier selection, protein function prediction, GPCR, G-protein coupled receptor, bioinformatics",

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AU - Secker, A.

AU - Davies, M.N.

AU - Freitas, A A

AU - Clark, E.B.

AU - Timmis, J.

AU - Flower, Darren R.

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AB - We address the important bioinformatics problem of predicting protein function from a protein's primary sequence. We consider the functional classification of G-Protein-Coupled Receptors (GPCRs), whose functions are specified in a class hierarchy. We tackle this task using a novel top-down hierarchical classification system where, for each node in the class hierarchy, the predictor attributes to be used in that node and the classifier to be applied to the selected attributes are chosen in a data-driven manner. Compared with a previous hierarchical classification system selecting classifiers only, our new system significantly reduced processing time without significantly sacrificing predictive accuracy.

KW - hierarchical classification

KW - supervised learning

KW - attribute selection

KW - feature selection

KW - classifier selection

KW - protein function prediction

KW - GPCR

KW - G-protein coupled receptor

KW - bioinformatics

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Hierarchical classification of G-protein-coupled receptors with data-driven selection of attributes and classifiers

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Keywords

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