Reverse engineering gene networks using singular value decomposition and robust regression

Yeung, M. K. Stephen; Tegnér, Jesper; Collins, James J.

doi:10.1073/pnas.092576199

articleProceedings of the National Academy of SciencesApr 30, 2002Closed access

Reverse engineering gene networks using singular value decomposition and robust regression

MKM. K. Stephen Yeung JTJesper Tegnér JJJames J. Collins

Boston University

PubMed

Indexed incrossrefpubmed

Abstract

We propose a scheme to reverse-engineer gene networks on a genome-wide scale using a relatively small amount of gene expression data from microarray experiments. Our method is based on the empirical observation that such networks are typically large and sparse. It uses singular value decomposition to construct a family of candidate solutions and then uses robust regression to identify the solution with the smallest number of connections as the most likely solution. Our algorithm has O(log N) sampling complexity and O(N(4)) computational complexity. We test and validate our approach in a series of in numero experiments on model gene networks.

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FWCI: 12.31
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References: 54

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Topics & keywords

Topics

Keywords

Singular value decomposition
Computer science
Construct (python library)
Regression
Data mining
Sampling (signal processing)
Gene regulatory network
Scale (ratio)

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