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

A survey of scientists developing bioprocesses found efficiency to be the top concern, with pressure growing each year to “produce more, do it more quickly, and do so with fewer resources.” 1 Yet, ...

Yes, many are attracted to next-generation sequencing, but loyalty to chip-based phenotyping has its rewards, particularly in screens of large sample sets. The microarray, the legacy technology for ...

Microarrays provide a way of organizing biological samples for high-throughput analysis. Samples are arranged in columns and rows upon a support surface consisting of a glass slide, a nitrocellulose ...

For most researchers DNA microarrays are synonymous with high-throughput gene expression analysis. But they also are invaluable genotyping tools. Now that the International HapMap Project (see article ...

A protein microarray consists of the immobilization of proteins in organized rows and columns upon a support structure. The structure of the protein microarray allows for high-throughput analysis of ...

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 ...

The research community's rapid acceptance of microarrays notwithstanding, technical challenges remain. Biochip developers continue to grapple with these issues while upgrading their offerings and ...

To understand how microarray technology is evolving to meet growing scientific demands, Technology Networks spoke with Thermo Fisher Scientific’s Ravi Gupta and Dr. Robert Balog.