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Homology-based prediction of interactions between proteins using Averaged One-Dependence Estimators
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Homology-based prediction of interactions between proteins using Averaged One-Dependence Estimators
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Journal Article
Homology-based prediction of interactions between proteins using Averaged One-Dependence Estimators
2014
Overview
Background
Identification of protein-protein interactions (PPIs) is essential for a better understanding of biological processes, pathways and functions. However, experimental identification of the complete set of PPIs in a cell/organism (“an interactome”) is still a difficult task. To circumvent limitations of current high-throughput experimental techniques, it is necessary to develop high-performance computational methods for predicting PPIs.
Results
In this article, we propose a new computational method to predict interaction between a given pair of protein sequences using features derived from known homologous PPIs. The proposed method is capable of predicting interaction between two proteins (of unknown structure) using Averaged One-Dependence Estimators (AODE) and three features calculated for the protein pair: (a) sequence similarities to a known interacting protein pair (F
Seq
), (b) statistical propensities of domain pairs observed in interacting proteins (F
Dom
) and (c) a sum of edge weights along the shortest path between homologous proteins in a PPI network (F
Net
). Feature vectors were defined to lie in a half-space of the symmetrical high-dimensional feature space to make them independent of the protein order. The predictability of the method was assessed by a 10-fold cross validation on a recently created human PPI dataset with randomly sampled negative data, and the best model achieved an Area Under the Curve of 0.79 (pAUC
0.5%
= 0.16). In addition, the AODE trained on all three features (named PSOPIA) showed better prediction performance on a separate independent data set than a recently reported homology-based method.
Conclusions
Our results suggest that F
Net
, a feature representing proximity in a known PPI network between two proteins that are homologous to a target protein pair, contributes to the prediction of whether the target proteins interact or not. PSOPIA will help identify novel PPIs and estimate complete PPI networks. The method proposed in this article is freely available on the web at
http://mizuguchilab.org/PSOPIA
.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V
Subject
/ Biomedical and Life Sciences
/ Computational Biology - methods
/ Computational Biology/Bioinformatics
/ Computer Appl. in Life Sciences
/ Grants
/ Humans
/ Methods
/ Protein Interaction Mapping - methods
/ Protein-protein interactions
/ Proteins
/ Science
/ Sequence analysis (applications)
