The rapid accumulation of microarray data translates into a need for methods to effectively integrate data generated with different platforms. Here we introduce an approach, 2 nd-order expression ...

Large-scale genomic analysis has changed the way we approach basic biology at the molecular level. Complementary DNA (cDNA) microarrays, as well as other high-throughput expression assays, have been ...

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 ...

Abstract: Microarray is a key technology in genomics and is increasingly used in molecular biology as well as in molecular medicine and clinical applications. The availability of different microarray ...

The power and promise of microarrays are vast. Offering the ability to run tens of thousands of experiments in parallel on a small glass slide, gene chips have transformed functional genomics, whether ...

High-throughput microarray technologies have revolutionized genomic research, enabling simultaneous analysis of thousands of genes. This R pipeline provides a comprehensive solution for microarray ...

Abstract: DNA microarray provides a powerful basis for analysis of gene expression. Data mining methods such as clustering have been widely applied to microarray data to link genes that show similar ...

aDepartment of Genetics, Institute for Cancer Research, Oslo University Hospital Radiumhospitalet, Oslo, Norway bDivision of Pathology, Institute for Cancer Research, Oslo University Hospital ...