Controlling the false discovery rate (FDR) is a powerful approach to deal with a large number of hypothesis tests, such as in gene expression data analyses and genome-wide association studies. To further boost power, here we propose a floating prioritized subset analysis (floating PSA) that can more effectively use prior knowledge and detect more genes that are differentially expressed. Genes are first allocated into two subsets: a prioritized subset and a non-prioritized subset, according to investigators' prior biological knowledge. We allow the FDRs of the two subsets to vary freely (to float) but aim to control the overall FDR at a desired level. An algorithm for the floating PSA is developed to detect the largest number of true positiv...
Abstract: The recent development of DNA microarray technology allows us to measure simultaneously th...
Screening for differential gene expression in microarray studies leads to difficult large-scale mult...
There have been discussions about detecting differentially expressed (DE) genes that are over-expres...
Controlling the false discovery rate (FDR) is a powerful approach to deal with a large number of hyp...
The issue of large-scale testing has caught much attention with the advent of high-throughput techno...
Motivation: The standard approach for statistical inference in differential expression (DE) analyses...
There is great current interest in using linkage disequilibrium (LD)-based genome screens to localiz...
This thesis focuses on analyzing the type of data returned by two pieces of technology, the older an...
When identifying differentially expressed genes between two conditions using human population RNA-se...
This paper introduces a statistical methodology for identication of differentially expressed genes i...
Recent progress in DNA microarray technologies allows researchers to perform genome-wide screening t...
There have been discussions about detecting differentially expressed (DE) genes that are over-expres...
All living organisms are made up of several thousand genes which are responsible for the control of ...
Motivation: The false discovery rate (fdr) is a key tool for statistical assessment of differential ...
The ordinary-, penalized-, and bootstrap t-test, least squares and best linear unbiased prediction w...
Abstract: The recent development of DNA microarray technology allows us to measure simultaneously th...
Screening for differential gene expression in microarray studies leads to difficult large-scale mult...
There have been discussions about detecting differentially expressed (DE) genes that are over-expres...
Controlling the false discovery rate (FDR) is a powerful approach to deal with a large number of hyp...
The issue of large-scale testing has caught much attention with the advent of high-throughput techno...
Motivation: The standard approach for statistical inference in differential expression (DE) analyses...
There is great current interest in using linkage disequilibrium (LD)-based genome screens to localiz...
This thesis focuses on analyzing the type of data returned by two pieces of technology, the older an...
When identifying differentially expressed genes between two conditions using human population RNA-se...
This paper introduces a statistical methodology for identication of differentially expressed genes i...
Recent progress in DNA microarray technologies allows researchers to perform genome-wide screening t...
There have been discussions about detecting differentially expressed (DE) genes that are over-expres...
All living organisms are made up of several thousand genes which are responsible for the control of ...
Motivation: The false discovery rate (fdr) is a key tool for statistical assessment of differential ...
The ordinary-, penalized-, and bootstrap t-test, least squares and best linear unbiased prediction w...
Abstract: The recent development of DNA microarray technology allows us to measure simultaneously th...
Screening for differential gene expression in microarray studies leads to difficult large-scale mult...
There have been discussions about detecting differentially expressed (DE) genes that are over-expres...