Identification of differentially expressed (DE) genes across two conditions is a common task with microarray. Most existing approaches accomplish this goal by examining each gene separately based on a model and then control the false discovery rate over all genes. We took a different approach that employs a uniform platform to simultaneously depict the dynamics of the gene trajectories for all genes and select differently expressed genes. A new Functional Principal Component (FPC) approach is developed for time-course microarray data to borrow strength across genes. The approach is flexible as the temporal trajectory of the gene expressions is modeled nonparametrically through a set of orthogonal basis functions, and often fewer basis funct...
Time-course microarray experiments are an increasingly popular approach for understanding the dynami...
A truly functional Bayesian method for detecting temporally differentially expressed genes between t...
A truly functional Bayesian method for detecting temporally differentially expressed genes between t...
Time course studies of gene expression are essential in biomedical research to understand biological...
In this paper we present a functional Bayesian method for detecting genes which are temporally diffe...
Time-course microarray experiments are an increasingly popular approach for understanding the dynami...
Abstract Background DNA microarrays offer motivation and hope for the simultaneous study of variatio...
Since transcriptional control is the result of complex networks, analyzing dynamical states of gene ...
Background: Time course gene expression experiments are an increasingly popular method for exploring...
More powerful significant testing for time course gene expression data using functional principal co...
Summary. Microarray technology has become widespread as a means to investigate gene function and met...
Functional gene research is an important issue in Post-genomic era. Microarray is used to generate l...
Motivation: Microarray experiments typically analyze thousands to tens of thousands of genes from sm...
Regulatory interactions among genes and gene products are dynamic processes, and hence, modeling the...
Gene expression over time can be viewed as a continuous process and therefore represented as a conti...
Time-course microarray experiments are an increasingly popular approach for understanding the dynami...
A truly functional Bayesian method for detecting temporally differentially expressed genes between t...
A truly functional Bayesian method for detecting temporally differentially expressed genes between t...
Time course studies of gene expression are essential in biomedical research to understand biological...
In this paper we present a functional Bayesian method for detecting genes which are temporally diffe...
Time-course microarray experiments are an increasingly popular approach for understanding the dynami...
Abstract Background DNA microarrays offer motivation and hope for the simultaneous study of variatio...
Since transcriptional control is the result of complex networks, analyzing dynamical states of gene ...
Background: Time course gene expression experiments are an increasingly popular method for exploring...
More powerful significant testing for time course gene expression data using functional principal co...
Summary. Microarray technology has become widespread as a means to investigate gene function and met...
Functional gene research is an important issue in Post-genomic era. Microarray is used to generate l...
Motivation: Microarray experiments typically analyze thousands to tens of thousands of genes from sm...
Regulatory interactions among genes and gene products are dynamic processes, and hence, modeling the...
Gene expression over time can be viewed as a continuous process and therefore represented as a conti...
Time-course microarray experiments are an increasingly popular approach for understanding the dynami...
A truly functional Bayesian method for detecting temporally differentially expressed genes between t...
A truly functional Bayesian method for detecting temporally differentially expressed genes between t...