Ziv Bar-Joseph1. 1. School of Computer Science, Carnegie Mellon University, Pittsburgh, PA 15217, USA. zivbj@cs.cmu.edu
Abstract
MOTIVATION: Time series expression experiments are an increasingly popular method for studying a wide range of biological systems. However, when analyzing these experiments researchers face many new computational challenges. Algorithms that are specifically designed for time series experiments are required so that we can take advantage of their unique features (such as the ability to infer causality from the temporal response pattern) and address the unique problems they raise (e.g. handling the different non-uniform sampling rates). RESULTS: We present a comprehensive review of the current research in time series expression data analysis. We divide the computational challenges into four analysis levels: experimental design, data analysis, pattern recognition and networks. For each of these levels, we discuss computational and biological problems at that level and point out some of the methods that have been proposed to deal with these issues. Many open problems in all these levels are discussed. This review is intended to serve as both, a point of reference for experimental biologists looking for practical solutions for analyzing their data, and a starting point for computer scientists interested in working on the computational problems related to time series expression analysis.
MOTIVATION: Time series expression experiments are an increasingly popular method for studying a wide range of biological systems. However, when analyzing these experiments researchers face many new computational challenges. Algorithms that are specifically designed for time series experiments are required so that we can take advantage of their unique features (such as the ability to infer causality from the temporal response pattern) and address the unique problems they raise (e.g. handling the different non-uniform sampling rates). RESULTS: We present a comprehensive review of the current research in time series expression data analysis. We divide the computational challenges into four analysis levels: experimental design, data analysis, pattern recognition and networks. For each of these levels, we discuss computational and biological problems at that level and point out some of the methods that have been proposed to deal with these issues. Many open problems in all these levels are discussed. This review is intended to serve as both, a point of reference for experimental biologists looking for practical solutions for analyzing their data, and a starting point for computer scientists interested in working on the computational problems related to time series expression analysis.
Authors: Naren Ramakrishnan; Satish Tadepalli; Layne T Watson; Richard F Helm; Marco Antoniotti; Bud Mishra Journal: Proc Natl Acad Sci U S A Date: 2010-06-22 Impact factor: 11.205
Authors: Sarika Mehra; Wei Lian; Karthik P Jayapal; Salim P Charaniya; David H Sherman; Wei-Shou Hu Journal: J Ind Microbiol Biotechnol Date: 2005-10-11 Impact factor: 3.346
Authors: John W Tullai; Michael E Schaffer; Steven Mullenbrock; Gabriel Sholder; Simon Kasif; Geoffrey M Cooper Journal: J Biol Chem Date: 2007-06-15 Impact factor: 5.157