Open AccessJournal Article
The microarray: potential applications for ophthalmic research
TLDR
The advantages and potential benefits of this technology in ophthalmic research are discussed, with particular attention to retinal diseases, and its possible application in the identification of genes involved in ocular disease progression that may serve as clinical markers or potential therapeutic targets.Abstract:
The microarray is a revolutionary technology combining molecular biology and computer technology in the high throughput, simultaneous analysis of global gene expression. It is emerging as a powerful and valuable research tool that holds great promise in elucidating the molecular mechanisms involved in complex diseases. The information gained may provide direction toward identifying appropriate targets for therapeutic intervention. Despite the enormous potential of this technology, however, a number of issues exist that complicate gene expression analysis and require further resolution. This paper reviews these issues as well as the conceptual, practical and statistical aspects of microarray technology, including its current use in research and clinical applications. Furthermore, the advantages and potential benefits of this technology in ophthalmic research are discussed, with particular attention to retinal diseases, and its possible application in the identification of genes involved in ocular disease progression that may serve as clinical markers or potential therapeutic targets.read more
Citations
More filters
Journal ArticleDOI
Development and evaluation of microarray-based whole-genome hybridization for detection of microorganisms within the context of environmental applications.
Liyou Wu,Dorothea K. Thompson,Xueduan Liu,Matthew W. Fields,Christopher E. Bagwell,James M. Tiedje,Jizhong Zhou +6 more
TL;DR: CGA hybridization has potential as a specific, sensitive, and quantitative tool for detection and identification of microorganisms in environmental samples, and reveals differences in microbial community composition in soil, river, and marine sediments.
Journal ArticleDOI
Statistical design of reverse dye microarrays.
TL;DR: The design issue of how many specimens are needed, how many forward and reverse labelled arrays to perform, and how to optimally assign Cy3 and Cy5 labels to the specimens are addressed, as well as the optimal design and sample size formulas.
Journal ArticleDOI
Identification of Gene Expression Changes Associated with the Progression of Retinal Degeneration in the rd1 Mouse
Abigail S. Hackam,Richelle Strom,Dongmei Liu,Jiang Qian,Chenwei Wang,Deborah C. Otteson,Tushara L. Gunatilaka,Ronald H. Farkas,Itay Chowers,Masaaki Kageyama,Thierry Léveillard,José-Alain Sahel,Peter A. Campochiaro,Giovanni Parmigiani,Donald J. Zack +14 more
TL;DR: Comparisons of normal and degenerated retina identified numerous genes and ESTs that are potentially enriched in rod photoreceptors, suggesting the involvement of temporally distinct molecular pathways.
Journal ArticleDOI
Questions and Answers on Design of Dual-Label Microarrays for Identifying Differentially Expressed Genes
TL;DR: This work addresses some common questions that arise in designing duallabel microarray experiments and provides statistical answers to these questions, focusing specifically on how to select optimal designs for the identification of differentially expressed genes.
Technical Brief Comparing the use of Affymetrix to spotted oligonucleotide microarrays using two retinal pigment epithelium cell lines
TL;DR: In this paper, the results obtained from two different microarray platforms: spotted cDNAs using a two-color system (Clontech, Atlas Glass Human 3.8) and the Affymetrix platform.