Project description:In order to gain insight into gene regulation in the Drosophila gut following oral infection, we performed the genome-wide DNA Polymerase II binding data for Polymerase II in the fly gut.
Project description:To understand the effects of the microbiome of Drosophila melanogaster on host gene expression, we compared the transcriptome of guts from conventionally reared flies to their axenically (germ-free)-reared counterparts. Our analysis used dissected intestines from 4-7 day-old adult females and included two wild-type fly lines, OregonR and CantonS, as well as an immune-deficient line, RelishE20. With one of the wild-type lines, CantonS, we also looked at the impact of microbiome on the transcriptional profile of dissected intestines from aged cohorts (35-40 day-old females) and young (4-7 day-old) non-gut tissues (all tissues remaining from samples dissected for the analysis of guts.
Project description:Drosophila melanogaster is a well-studied genetic model organism with several large-scale transcriptome resources. Here we investigate 7,952 proteins during the fly life cycle from embryo to adult and also provide a high-resolution temporal time course proteome of 5,458 proteins during embryogenesis. We use our large scale data set to compare transcript/protein expression, uncovering examples of extreme differences between mRNA and protein abundance. In the embryogenesis proteome, the time delay in protein synthesis after transcript expression was determined. For some proteins, including the transcription factor lola, we monitor isoform specific expression levels during early fly development. Furthermore, we obtained firm evidence of 268 small proteins, which are hard to predict by bioinformatics. We observe peptides originating from non-coding regions of the genome and identified Cyp9f3psi as a protein-coding gene. As a powerful resource to the community, we additionally created an interactive web interface (http://www.butterlab.org) advancing the access to our data.
Project description:dFOXO targets in adult Drosophila melanogaster females, and the effect of insulin signalling and stress on binding. The experimets determined the binding locations of dFOXO in the whole adult female fly using ChIP-chip. The protocol was validated using mock conditions: pre-immune serum or IP on chromatin from foxo null flies. The response of this binding to stress induced by treatment of flies with paraquat or by their exposure to starvation, as well as the response to an insulin-signalling-reducing genetic manipulation (over-expression of dominant negative form of the insulin receptor), was determined.
