Modern laboratory techniques for the detection of novel human viruses are greatly needed as physicians and epidemiologists increasingly deal with infectious diseases caused by new or previously ...

A recent study highlights how DNA microarray technology enables high-throughput gene analysis, supporting variation detection, expression profiling, and clinical research. By refining probe design and ...

PURPOSE: E-cadherin (E-cad) and its associated intracellular molecules, catenins, are critical for intercellular epithelial adhesion and are often expressed in non–small-cell lung carcinomas (NSCLCs).

The maturation of proteomics as a separate experimental field from genomics has highlighted the importance of obtaining information concerning a given protein’s activation state. This information can ...

Mass Spec Alternative Detects Biomarker Signatures in Tissues, Blood, and Cell Culture The current generation of antibody microarray technologies is providing highly sensitive new tools for screening ...

As genetic analysis expands to serve everything from population-scale studies to precision-driven clinical decisions, laboratories are under growing pressure to move faster while managing increasingly ...

With the ever-increasing density of microarrays comes a need for moresensitive and high-throughput ways to read the resulting data. Arrays contain tens of thousands of 50- to 150-μm-diameter spots per ...

Next generation genomics technology is playing a significant role in improving the outcomes of genomic tools used in livestock farming, cultivation of crops, selection of quality seeds with improved ...

High-Throughput Tissue Microarray Analysis Used to Evaluate Biology and Prognostic Significance of the E-Cadherin Pathway in Non–Small-Cell Lung Cancer Authors: R. M. Bremnes, R. Veve, E. Gabrielson, ...