Protein sequence analysis using relational soft clustering algorithms

Maji, Pradipta ; Pal, Sankar K. (2007) Protein sequence analysis using relational soft clustering algorithms Bioinformatics, 84 (5). pp. 599-617. ISSN 1367-4803

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Official URL: http://www.tandfonline.com/doi/abs/10.1080/0020716...

Related URL: http://dx.doi.org/10.1080/00207160701210083

Abstract

To recognize functional sites within a protein sequence, the non-numerical attributes of the sequence need encoding prior to using a pattern recognition algorithm. The success of recognition depends on the efficient coding of the biological information contained in the sequence. In this regard, a bio-basis function maps a non-numerical sequence space to a numerical feature space, based on an amino acid mutation matrix. In effect, the biological content in a sequence can be maximally utilized for analysis. One of the important issues for the bio-basis function is how to select a minimum set of bio-bases with maximum information. In this paper, we present two relational soft clustering algorithms, named rough c-medoids and fuzzy-possibilistic c-medoids, to select the most informative bio-bases. While both fuzzy and possibilistic memberships of fuzzy-possibilistic c-medoids avoid the noise sensitivity defect of fuzzy c-medoids and the coincident clusters problem of possibilistic c-medoids, the concept of lower and upper boundaries of rough c-medoids deals with uncertainty, vagueness, and incompleteness in class definition of biological data. The concept of 'degree of resemblance', based on non-gapped pairwise homology alignment score, circumvents the initialization and local minima problems of both c-medoids algorithms. In effect, it enables efficient selection of a minimum set of most informative bio-bases. The effectiveness of the algorithms, along with a comparison with other algorithms, has been demonstrated on HIV (human immunodeficiency virus) protein datasets.

Item Type:Article
Source:Copyright of this article belongs to Oxford University Press.
Keywords:Fuzzy Sets; Pattern Recognition; Relational Clustering; Rough Sets; Sequence Analysis
ID Code:77706
Deposited On:14 Jan 2012 06:10
Last Modified:14 Jan 2012 06:10

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