High-throughput RNAi screening is widely applied in biological research, but remains expensive, infrastructure-intensive and conversion of many assays to HTS applications in microplate format is not ...

The main application of microarrays is gene expression analysis, but other uses for these arrays continue to grow in popularity. Laura Bonetta reports on the use of this technology to analyze other ...

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 ...

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 ...

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 ...

Microarrays have revolutionized cancer research over the past decade. In particular, microarrays provide for higher degrees of specificity and sensitivity while allowing research results to be ...

Curious about how to detect and characterize tumor-derived biomarkers from liquid biopsy samples? Genomics-based methods now provide access to more molecular data than ever before, delivering cancer ...

At CombiMatrix Corp., a diagnostic laboratory in Irvine, white-cloaked techs sit hunched over microscopes while their gloved hands deftly pick through the remains of lost pregnancies, pulling the ...