In the design of microarray or next-generation sequencing experiments it is crucial to choose the appropriate number of biological replicates. As often the number of differentially expressed genes and their effect sizes are small and too few replicates will lead to insufficient power to detect these. On the other hand, too many replicates unnecessary leads to high experimental costs. Power and sample size analysis can guide experimentalist in choosing the appropriate number of biological replicates. Several methods for power and sample size analysis have recently been proposed for microarray data. However, most of these are restricted to two group comparisons and require user-defined effect sizes. Here we propose a pilot-data based method f...
The process of obtaining biological samples is often expensive, involved, and time con-suming. Thus,...
Sample size estimation is important in microarray or proteomic experi-ments since biologists can typ...
Next Generation Sequencing (NGS) technology is emerging as an appealing tool in characterizing genom...
In the design of microarray or next-generation sequencing experiments it is crucial to choose the ap...
Abstract Background Before conducting a microarray experiment, one important issue that needs to be ...
Microarrays permit biologists to simultaneously measure the mRNA abundance of thousands of genes. An...
Abstract Background In this short article, we discuss a simple method for assessing sample size requ...
Genomic scientists often test thousands of hypotheses in a single experiment. One example is a micro...
Motivation: Microarray experiments often involve hundreds or thou-sands of genes. In a typical exper...
The high-throughput technologies developed in the last decade have revolutionized the speed of data ...
Background - With the increasing number of expression profiling technologies, researchers today are ...
Background: Determining a suitable sample size is an important step in the planning of microarray ex...
Background: Determining a suitable sample size is an important step in the planning of microarray ex...
We outline a method of sample size calculation in microarray experiments on the basis of pilot data ...
A sample size with sufficient statistical power is critical to the success of genetic association st...
The process of obtaining biological samples is often expensive, involved, and time con-suming. Thus,...
Sample size estimation is important in microarray or proteomic experi-ments since biologists can typ...
Next Generation Sequencing (NGS) technology is emerging as an appealing tool in characterizing genom...
In the design of microarray or next-generation sequencing experiments it is crucial to choose the ap...
Abstract Background Before conducting a microarray experiment, one important issue that needs to be ...
Microarrays permit biologists to simultaneously measure the mRNA abundance of thousands of genes. An...
Abstract Background In this short article, we discuss a simple method for assessing sample size requ...
Genomic scientists often test thousands of hypotheses in a single experiment. One example is a micro...
Motivation: Microarray experiments often involve hundreds or thou-sands of genes. In a typical exper...
The high-throughput technologies developed in the last decade have revolutionized the speed of data ...
Background - With the increasing number of expression profiling technologies, researchers today are ...
Background: Determining a suitable sample size is an important step in the planning of microarray ex...
Background: Determining a suitable sample size is an important step in the planning of microarray ex...
We outline a method of sample size calculation in microarray experiments on the basis of pilot data ...
A sample size with sufficient statistical power is critical to the success of genetic association st...
The process of obtaining biological samples is often expensive, involved, and time con-suming. Thus,...
Sample size estimation is important in microarray or proteomic experi-ments since biologists can typ...
Next Generation Sequencing (NGS) technology is emerging as an appealing tool in characterizing genom...