Using deep maxout neural networks to improve the accuracy of function prediction from protein interaction networks.

Using deep maxout neural networks to improve the accuracy of function prediction from protein interaction networks.

Protein-protein interaction network data provides valuable information that infers direct links between genes and their biological roles. This information brings a fundamental hypothesis for protein function prediction that interacting proteins tend to have similar functions. With the help of recent...

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Main Authors: Cen Wan, Domenico Cozzetto, Rui Fa, David T Jones
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2019-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0209958
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spelling doaj-278a01bde45b4c2c9b1771475b4f2cf32021-03-04T12:43:58ZengPublic Library of Science (PLoS)PLoS ONE1932-62032019-01-01147e020995810.1371/journal.pone.0209958Using deep maxout neural networks to improve the accuracy of function prediction from protein interaction networks.Cen WanDomenico CozzettoRui FaDavid T JonesProtein-protein interaction network data provides valuable information that infers direct links between genes and their biological roles. This information brings a fundamental hypothesis for protein function prediction that interacting proteins tend to have similar functions. With the help of recently-developed network embedding feature generation methods and deep maxout neural networks, it is possible to extract functional representations that encode direct links between protein-protein interactions information and protein function. Our novel method, STRING2GO, successfully adopts deep maxout neural networks to learn functional representations simultaneously encoding both protein-protein interactions and functional predictive information. The experimental results show that STRING2GO outperforms other protein-protein interaction network-based prediction methods and one benchmark method adopted in a recent large scale protein function prediction competition.https://doi.org/10.1371/journal.pone.0209958
collection DOAJ
language English
format Article
sources DOAJ
author Cen Wan
Domenico Cozzetto
Rui Fa
David T Jones
spellingShingle Cen Wan
Domenico Cozzetto
Rui Fa
David T Jones
Using deep maxout neural networks to improve the accuracy of function prediction from protein interaction networks.
PLoS ONE
author_facet Cen Wan
Domenico Cozzetto
Rui Fa
David T Jones
author_sort Cen Wan
title Using deep maxout neural networks to improve the accuracy of function prediction from protein interaction networks.
title_short Using deep maxout neural networks to improve the accuracy of function prediction from protein interaction networks.
title_full Using deep maxout neural networks to improve the accuracy of function prediction from protein interaction networks.
title_fullStr Using deep maxout neural networks to improve the accuracy of function prediction from protein interaction networks.
title_full_unstemmed Using deep maxout neural networks to improve the accuracy of function prediction from protein interaction networks.
title_sort using deep maxout neural networks to improve the accuracy of function prediction from protein interaction networks.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2019-01-01
description Protein-protein interaction network data provides valuable information that infers direct links between genes and their biological roles. This information brings a fundamental hypothesis for protein function prediction that interacting proteins tend to have similar functions. With the help of recently-developed network embedding feature generation methods and deep maxout neural networks, it is possible to extract functional representations that encode direct links between protein-protein interactions information and protein function. Our novel method, STRING2GO, successfully adopts deep maxout neural networks to learn functional representations simultaneously encoding both protein-protein interactions and functional predictive information. The experimental results show that STRING2GO outperforms other protein-protein interaction network-based prediction methods and one benchmark method adopted in a recent large scale protein function prediction competition.
url https://doi.org/10.1371/journal.pone.0209958
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AT domenicocozzetto usingdeepmaxoutneuralnetworkstoimprovetheaccuracyoffunctionpredictionfromproteininteractionnetworks
AT ruifa usingdeepmaxoutneuralnetworkstoimprovetheaccuracyoffunctionpredictionfromproteininteractionnetworks
AT davidtjones usingdeepmaxoutneuralnetworkstoimprovetheaccuracyoffunctionpredictionfromproteininteractionnetworks
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