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 ...

Gene therapy holds the promise of preventing and curing disease by manipulating gene expression within a patient's cells. However, to be effective, the new gene must make it into a cell’s nucleus. The ...

DNA microarrays let scientists study thousands of genes at once by binding DNA probes to chips and detecting hybridization with fluorescent signals. They’re used for gene expression profiling, SNP ...

Gene therapy holds the promise of preventing and curing disease by manipulating gene expression within a patient's cells. However, to be effective, the new gene must make it into a cell's nucleus. The ...

The human genome project was undertaken to determine the human DNA sequence and analyze variation among individuals. To make use of this information, tools were developed that could collect and ...

Launched in 1990, The Human Genome Project was a monumental effort to sequence and analyze the entire human genome to understand how genetics influence health. While the Human Genome Project helped ...

Introducing the new CytoScan HD Accel microarray that significantly improves the power and speed of genome-wide copy number analysis using industry-leading Chromosomal Microarray (CMA). The highly ...

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 ...