Project description:Contains a row for each annotated gene in each sample, indicating whether our analysis called the gene "present" or "absent" in the sample. Gene names and coordinates refer to version 3 of the TIGR annotation as submitted to GenBank (GI numbers 22330780, 22326553, 22331929, 22329272, 22328163).

Project description:Contains a row for each intergenic region in each sample, indicating whether our analysis called a window within the region "present" or "absent" in the sample. Intergenic regions are regions containing neither annotated genes nor intergenic clusters. Region coordinates refer to version 3 of the TIGR annotation as submitted to GenBank (GI numbers 22330780, 22326553, 22331929, 22329272, 22328163).

Project description:Contains a row for each intergenic cluster in each sample, indicating whether our analysis called the cluster "present" or "absent" in the sample. Intergenic clusters are novel (unannotated) genes detected by aligning Arabidopsis cDNAs/ESTs to the genome. Cluster coordinates refer to version 3 of the TIGR annotation as submitted to GenBank (GI numbers 22330780, 22326553, 22331929, 22329272, 22328163).

Project description:Contains a row for each annotated gene in each sample, indicating whether our analysis called the region antisense to the coding region of the gene "present" or "absent" in the sample. Gene names and coordinates refer to version 3 of the TIGR annotation as submitted to GenBank (GI numbers 22330780, 22326553, 22331929, 22329272, 22328163). Keywords: other

Project description:Contains a row for each annotated gene in each sample, indicating whether our analysis called the gene "present" or "absent" in the sample. Gene names and coordinates refer to version 3 of the TIGR annotation as submitted to GenBank (GI numbers 22330780, 22326553, 22331929, 22329272, 22328163). Keywords: other

Project description:Contains a row for each intergenic region in each sample, indicating whether our analysis called a window within the region "present" or "absent" in the sample. Intergenic regions are regions containing neither annotated genes nor intergenic clusters. Region coordinates refer to version 3 of the TIGR annotation as submitted to GenBank (GI numbers 22330780, 22326553, 22331929, 22329272, 22328163). Keywords: other

Project description:A differential display experiment was done to compare genes expressed in salivary glands from unfed males, males fed in the presence of females and males fed in the absence of females. Possible differential bands were excised, cloned and sequenced. A macroarray study was done on these clones as probes. RNA from the salivary glands of ticks from the three conditions was labelled and hybridized. Two sets of primers were used in the differential display, and these same two were used in the labelling, so there are two platforms, corresponding to what primer pair was used. Two independent RNA isolations were done, Experiment 1 used one, 2 and 3 the other. Experiment 2 used exposure to X-ray film, while 1 and 3 used a phosphorimager plate. Two exposures of the X-ray film were found to give acceptable results, 1 and 5 min. These were averaged in the analysis. Keywords = salivary_gland Keywords = feeding Keywords = male Keywords = female

Project description:We used the DamID method to systematically identify the binding sites of Ecdysone Receptor and its heterodimeric partner USP across the whole genome in Drosophila Kc cells. We find that the EcR sites are a subset of the USP sites and that only a proportion are ecdysone regulated from an accompanying ecdysone profiling study. The role of EcR/USP in the ecdysone network appears to be coordinated by the recruitment of many transcription factors as well as signaling molecules. Keywords: DamID, chromatin profiling, DNA microarray In this study we mapped the genomic binding sites of steroid hormone nuclear receptor EcR and USP in Kc167 cells using the DamID method. DamID involves the low level expression of a fusion protein consisting of DNA adenine methyltransferase (Dam) and a chromatin protein of interest. This fusion protein is targeted to the native binding sites of the chromatin protein, where Dam methylates adenines in the surrounding DNA. The methylated DNA fragments were isolated and amplified by selective PCR, labeled with a fluorescent dye and hybridized to whole genome tiling microarrays. In this study,experiments were done with samples obtained from independent experiments and include dye swaps.

Project description:Contains a row for each intergenic cluster in each sample, indicating whether our analysis called the cluster "present" or "absent" in the sample. Intergenic clusters are novel (unannotated) genes detected by aligning Arabidopsis cDNAs/ESTs to the genome. Cluster coordinates refer to version 3 of the TIGR annotation as submitted to GenBank (GI numbers 22330780, 22326553, 22331929, 22329272, 22328163). Keywords: other

Project description:Changes in human bladder epithelial cell gene expression associated with interstitial cystitis or antiproliferative factor treatment. Explanted bladder epithelial cells from patients with interstitial cystitis (IC) have been shown to differ from explanted control cells in several ways, including production of an antiproliferative factor (APF), altered production of certain epithelial growth factors, and rate of proliferation. To better understand the role of the APF in abnormal bladder epithelial cell proliferation in IC, we studied gene expression patterns in normal bladder epithelial cells treated with APF vs. mock APF and compared them to expression patterns in IC vs. normal cells using microarray analysis. Oligo-dT-primed total cellular RNA was labeled with [33P]dCTP and hybridized to GeneFilter GF211 microarray membranes (Research Genetics) containing cDNA for 3,964 human genes. Thirteen genes that function in epithelial cell proliferation or differentiation were consistently differentially expressed in both IC (compared with control) and APF-treated (compared with mock APF-treated) normal bladder epithelial cells. The general pattern of gene expression in IC and APF-treated cells suggested a less proliferative phenotype, with increased expression of E-cadherin, phosphoribosylpyrophosphate synthetase-associated protein 39, and SWI/SNF complex 170-kDa subunit, and decreased expression of vimentin, {alpha}2-integrin, {alpha}1-catenin, cyclin D1, and jun N-terminal kinase 1; these findings were confirmed for the structural gene products (E-cadherin, vimentin, {alpha}2-integrin, and {alpha}-catenin) by immunohistochemistry. These results are compatible with the previously noted decreased proliferation rate of IC and APF-treated normal cells, and indicate that the mechanism whereby APF inhibits cell proliferation may involve both downregulation of genes that stimulate cell proliferation along with upregulation of genes that inhibit cell growth.