A recent study highlights how DNA microarray technology enables high-throughput gene analysis, supporting variation detection, expression ...

Microarrays, including genome tiling microarrays, are exceptionally powerful tools for querying diverse genomic features, including mapping gene expression and structure, analyzing polymorphisms, ...

Mitochondria produce most of the cellular ATP by the process of oxidative phosphorylation (OXPHOS) and generate most of the endogenous oxygen radicals as a toxic by-product. In addition, mitochondria ...

Two of the critical issues that arise when examining DNA microarray data are (1) determination of which genes best discriminate among the different types of tissue, and (2) characterization of ...

Proceedings of the National Academy of Sciences of the United States of America, Vol. 103, No. 33 (Aug. 15, 2006), pp. 12311-12316 (6 pages) We have developed methods for using DNA array technology to ...

A standard Internet protocol that checks errors made during email transmissions has now inspired a revolutionary method to transform DNA microarray analysis, a common technology used to understand ...

Targeted resequencing is one of the fastest growing applications for next-generation sequencing technology. The ultimate goal is to look for causative mutations within discrete genomic loci in ...

Comparative genomic hybridization (CGH) was developed to identify pathogenic DNA copy-number changes (e.g., duplications, deletions) on a genome-wide scale, and to map these changes to genomic ...

In the early 1980s, David Gilmour, now an emeritus biochemistry and molecular biology professor at Pennsylvania State University, joined the laboratory of geneticist and biochemist John Lis as a ...

Microarrays are used to detect the expression of a diverse range of thousands of genes. They include microscopic slides that can be printed with a spot of a known sequence of DNA. This sequence then ...