They also serve as a general demultiplexing tool to sort spatially the sequence-tagged products of highly parallel reactions performed in solution. A brief review of microarray platform technology options, and of the process steps involved in complete experiment workflows, is included....
DNA microarrays bring practical benefits to the field of food safety in regard to pathogen detection and characterization. This chapter is a review of how DNA microarray technology has been applied...doi:10.1007/978-1-4614-3250-0_5Guillermo López-Campos...
DNA microarray technology allows a parallel analysis of RNA abundance and DNA homology for thousands of genes in a single experiment. Over the past few years, this powerful technology has been used to explore transcriptional profiles and genome differences for a variety of microorganisms, greatly faci...
A number of innovative experiments have extended microarray applications beyond the measurement of mRNA expression levels, in order to uncover aspects of large-scale chromosome function and dynamics. This has been made possible due to the recent development of tiling arrays, where all non-repetitive ...
Genome-wide expression analysis in Corynebacterium glutamicum using DNA microarrays - ScienceDirect DNA microarray technology has become an important research tool for microbiology and biotechnology as it allows for comprehensive DNA and RNA analyses to c... Volker,F.,Wendisch - 《Journal of Biotechnolog...
A flurry of manuals and technical monographs have appeared over the past few years to try and guide the novice investigator through the pitfalls of implementing microarray production in their laboratories and, more importantly, through the statistical minefield that accompanies the analysis of gene ...
A DNA microarray system is usually comprised of DNA probes formatted on a microscale on a glass surface (chip), plus the instruments needed to handle samples (automated robotics), to read the reporter molecules (scanners) and analyse the data (bioinformatic tools). Biochips are formed by in si...
Applications of functional protein microarray for interrogating protein-binding property include A, Protein-protein interactions; B, Protein-lipid interactions; C, Protein-cell/lysate interactions; D, Small molecule binding; E, Enzyme-substrate relationships; F, Protein-DNA interactions; G, Protein-RNA ...
DNA microarray technology permits simultaneous analysis of thousands of DNA sequences for genomic research and diagnostics applications. Microarray technology represents the most recent and exciting advance in the application of hybridization-based technology for biological sciences analysis. This review focuses...
Tibshirani R, Hastie T, Eisen M, Ross D, Bostein D, Brown P: Clustering methods for the analysis of DNA microarray data. Unpublished manuscript 1999. Google Scholar McLachlan G, Do K, Ambroise C: Analyzing Microarray Gene Expression Data. Wiley; 2004. Book Google Scholar Bair E, Hastie...