microarray technology makes it possible to simultaneously study the expression of thousands of genes during a single experiment. We have developed an information system, ArrayDB, to manage and analyse large-scale expr...
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microarray technology makes it possible to simultaneously study the expression of thousands of genes during a single experiment. We have developed an information system, ArrayDB, to manage and analyse large-scale expression data. The underlying relational database was designed to allow flexibility in the nature and structure of data input and also in the generation of standard or customized reports through a web-browser interface. ArrayDB provides varied options for data retrieval and analysis tools that should facilitate the interpretation of complex hybridization results. A sampling of ArrayDB storage, retrieval and analysis capabilities is available (***/DIR/LCG/15K/HTML/), along with information on a set of approximately 15,000 genes used to fabricate several widely used microarrays. Information stored in ArrayDB is used to provide integrated gene expression reports by linking array target sequences with NCBl's Entrez retrieval system, UniGene and KEGG pathway views. The integration of externa I information resources is essential in interpreting intrinsic patterns and relationships in large-scale gene expression data.
Deposition of nucleic acids on solid support in the form of high density array (a DNA microarray) creates a powerful nonelectrophoretic technology for highly parallel genetic analysis. microarrays have applications in...
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ISBN:
(纸本)0819426989
Deposition of nucleic acids on solid support in the form of high density array (a DNA microarray) creates a powerful nonelectrophoretic technology for highly parallel genetic analysis. microarrays have applications in the areas of DNA sequencing, genetic mutation detection and gene expression monitoring. We report here the design and utility of an experimental instrument for microchip parallel hyperspectral fluorescent imaging. The instrument integrates in-line laser excitation of microarray, parallel fluorescent spectrometry with cooled CCD and dye-base spectral classification software. Instrumentation has been applied for imaging detection, spectral analysis and base classification of Genetic Bit Analysis (GBA) reactions in a microchip format on a glass support. GBA is a solid phase DNA sequence analysis method that provides single nucleotide resolution by specific extension of dye-labeled dideoxynucleotidetriphosphates (ddNTPs). GBA testing yields one or two different ddNTPs on any given microarray spot, so analysis must resolve any pair wise combination of all possible ddNTPs labeled with distinct fluorescent dyes.
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