Edited by B Jordan Springer-Verlag, Heidelberg. 2001; 140 pp. £30.00, paperback. ISBN 3-540-41508-4. The heady euphoria of the late nineties, promising that DNA microarrays would be ubiquitous tools ...

Pat Brown, CEO of Impossible Foods (CA, USA) and professor emeritus in the department of biochemistry at Stanford University (CA, USA), takes us through the invention of DNA microarrays, their ...

In biomedical research, DNA microarrays are used for the study of gene expression, single-nucleotide polymorphism (SNP) detection, detection of methylation patterns abnormality, and pathogen detection ...

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 ...

“Low density DNA, protein or mixed DNA/protein microarrays are useful for the simultaneous detection of multiple pathogens. The spots on such an array are usually between 50 and 150 micrometres in ...

Since their inception in 1995, DNA microarrays have become the icon of the genomics revolution. Everyone with any interest has become familiar with the images of precise rows and columns of colored ...

HANCOCK, N.H. — The breadth of projected application opportunities for bioarrays is fueling a volatile mix of technologies, all of which were on display at the recent Chips to Hits conference in ...

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 ...

Small molecule microarrays allow screening of biomolecules such as peptides and carbohydrates. By immobilizing these small molecules on a microarray, interactions can be quickly assessed through a ...