Background: One of the factors limiting the number of genes that can be analyzed on high-density oligonucleotide arrays is that each transcript is probed by multiple oligonucleotide probes. To reduce the number of probes required for each gene, a systematic approach to choosing the most representative probes is needed. A method is presented for reducing the number of probes per gene while maximizing the fidelity to the original array design. Results: The methodology has been tested on a dataset comprising 317 Affymetrix HuGeneFL GeneChips. The performance of the original and reduced probe sets was compared in four cancer-classification problems. The results of these comparisons show that reduction of the probe set by 95% does not dramatical...
Microarray technology is a commonly used tool in biomedical research for assessing global gene expre...
Motivation: In microarray experiments, probe design is critical to the specific and accurate measure...
The selection of oligonucleotide probes for micro arrays is still very difficult task. With the rapi...
Motivation: Large arrays of oligonucleotide probes have become popular tools for analyzing RNA expre...
Medium-resolution genotyping has the goal of distinguishing different subgroups instead of each elem...
Motivation: Target-specific hybridization depends on oligo-probe characteristics that improve hybrid...
We present the first algorithm that selects oligonucleotide probes (e.g. 25-mers) for microarray exp...
Most current microarray oligonucleotide probe design strategies are based on probe design factors (P...
Chapter 6Oligonucleotide microarrays have been widely used for gene detection and/or quantification ...
To optimize oligonucleotide probe design criteria, PCR products with different similarities to probe...
The goal of the Human Genome Project is to sequence all 3 billion base pairs of the human genome. Pr...
There is a substantial interest in implementing bioinformatics technologies that allow the design of...
Microarray technology, which has been around for almost two decades, now provides an indispensable s...
DNA microarrays or DNA chips are a rapidly developing technology in the domain of nucleic acid analy...
Motivation: In microarray experiments, probe design is critical to the specific and accurate measure...
Microarray technology is a commonly used tool in biomedical research for assessing global gene expre...
Motivation: In microarray experiments, probe design is critical to the specific and accurate measure...
The selection of oligonucleotide probes for micro arrays is still very difficult task. With the rapi...
Motivation: Large arrays of oligonucleotide probes have become popular tools for analyzing RNA expre...
Medium-resolution genotyping has the goal of distinguishing different subgroups instead of each elem...
Motivation: Target-specific hybridization depends on oligo-probe characteristics that improve hybrid...
We present the first algorithm that selects oligonucleotide probes (e.g. 25-mers) for microarray exp...
Most current microarray oligonucleotide probe design strategies are based on probe design factors (P...
Chapter 6Oligonucleotide microarrays have been widely used for gene detection and/or quantification ...
To optimize oligonucleotide probe design criteria, PCR products with different similarities to probe...
The goal of the Human Genome Project is to sequence all 3 billion base pairs of the human genome. Pr...
There is a substantial interest in implementing bioinformatics technologies that allow the design of...
Microarray technology, which has been around for almost two decades, now provides an indispensable s...
DNA microarrays or DNA chips are a rapidly developing technology in the domain of nucleic acid analy...
Motivation: In microarray experiments, probe design is critical to the specific and accurate measure...
Microarray technology is a commonly used tool in biomedical research for assessing global gene expre...
Motivation: In microarray experiments, probe design is critical to the specific and accurate measure...
The selection of oligonucleotide probes for micro arrays is still very difficult task. With the rapi...