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 ...

In each type of cell, like a muscle cell or a skin cell, different genes are expressed (turned on) or silenced (turned off). If the cells that are turned on mutate, they could—depending on what role ...

The field of proteomics has undergone rapid advancements over the last decade and protein microarrays have emerged as a promising technological platform for the challenging task of studying complex ...

To prevent outbreaks of water- or food-borne illnesses, scientists need rapid, sensitive methods to detect pathogenic bacteria such as Escherichia coli, Salmonella enterica, and Campylobacter jejuni.

Processes Involved in Using DNA Microarray Instrumentation in Protein Microarray Workflow Protein microarrays offer the ability to measure protein expression and antibody binding in a high-throughput ...

High-Throughput and Multiplexed Assays Augment Biomarker Discovery and Diagnostics High-throughput proteomics using microarray-based technology and proteome chips is accelerating protein-biomarker ...

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 ...