Jane Shingles1, John Reece-Hoyes1, Denis Dupuy2, Marc Vidal2 and Ian Hope1. The Promoterome library containing 6500 Caenorhabditis elegans promoter fragments has previously been generated and used to construct promoter ::GFP fusions to allow determination of gene expression patterns in C. elegans. Optimization of the C. elegans micro-particle bombardment transformation technique, to give a medium through-put system, allowed the generation of expression patterns for over 300 C. elegans promoter::GFP fusions. Promoter fusion constructs of transcription factors genes and genes with homology to human genes with no assigned function were selected for the initial analysis and the results are shown. Initial analysis of the results highlights several significant differences between the two sets of genes. Promoters from C. elegans homologues of human genes with no known function were far more likely to yield either no GFP expression (35% vs. 6%) or ubiquitous GFP expression (23% vs. 8%) under the standard laboratory conditions utilized. In contrast, promoters from C. elegans transcription factor genes were far more likely to drive neuronal expression (62% vs.16%).. Full results are presented on the Hope Laboratory Expression Pattern database URL
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