Paper Info
Title
MIST: Maximum Information Spanning Trees for dimension reduction of biological data sets.
Abstract
Motivation: The study of complex biological relationships is aided by large and high-dimensional data sets whose analysis often involves dimension reduction to highlight representative or informative directions of variation. In principle, information theory provides a general framework for quantifying complex statistical relationships for dimension reduction. Unfortunately, direct estimation of high-dimensional information theoretic quantities, such as entropy and mutual information (MI), is often unreliable given the relatively small sample sizes available for biological problems. Here, we develop and evaluate a hierarchy of approximations for high-dimensional information theoretic statistics from associated low-order terms, which can be more reliably estimated from limited samples. Due to a relationship between this metric and the minimum spanning tree over a graph representation of the system, we refer to these approximations as MIST (Maximum Information Spanning Trees). Results: The MIST approximations are examined in the context of synthetic networks with analytically computable entropies and using experimental gene expression data as a basis for the classification of multiple cancer types. The approximations result in significantly more accurate estimates of entropy and MI, and also correlate better with biological classification error than direct estimation and another low-order approximation, minimum-redundancy-maximum-relevance (mRMR).
Year
DOI
Venue
2009
10.1093/bioinformatics/btp109
BIOINFORMATICS
Keywords
Field
DocType
computational biology,dimension reduction,spanning tree,entropy,gene expression profiling,biological data
Information theory,Data mining,Biological data,Data set,Dimensionality reduction,Computer science,Spanning tree,Mutual information,Bioinformatics,Graph (abstract data type),Minimum spanning tree
Journal
Volume
Issue
ISSN
25
9
1367-4803
Citations 
PageRank 
References 
6
0.54
10
Authors
2
Name
Order
Citations
PageRank
Bracken M. King171.02
Bruce Tidor211215.30