Project description:Argonaute proteins of the PIWI-clade, complexed with PIWI-interacting RNAs (piRNAs), protect the animal germline genome by silencing transposable elements. One of the leading experimental systems for studying piRNA biology is the Drosophila melanogaster ovary. In addition to classical mutagenesis, transgenic RNA interference (RNAi), which enables tissue-specific silencing of gene expression, plays a central role in piRNA research. Here, we establish a versatile toolkit focused on piRNA biology that integrates transgenic RNAi in the germline, GFP-marker lines for key proteins of the piRNA pathway, and reporter transgenes to establish genetic hierarchies. We compare constitutive, pan-germline RNAi with an equally potent transgenic RNAi system that is activated only upon germ cell cyst formation. Stage specific RNAi allows investigating the role of genes essential for cell survival (e.g. nuclear RNA export or the SUMOylation pathways) in piRNA-dependent and independent transposon silencing. Our work forms the basis for an expandable genetic toolkit available from the Vienna Drosophila Resource Center. 

Project description:Existing transgenic RNAi resources in Drosophila utilize the expression of long double stranded hairpin RNAs and are powerful tools for the identification and characterization of genes involved in various processes. However, they are ineffective to knockdown genes during oogenesis, an important model system for the study of numerous fundamental questions in biology. Here, we show that short hairpin RNAs (shRNAs), modeled on an endogenous microRNA, are extremely effective at silencing gene expression during oogenesis. We also describe our progress towards building a genome-wide shRNA resource.

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:Quality assessment and control of tissue specific RNA-seq libraries of Drosophila transgenic RNAi models

Project description:Existing transgenic RNAi resources in Drosophila utilize the expression of long double stranded hairpin RNAs and are powerful tools for the identification and characterization of genes involved in various processes. However, they are ineffective to knockdown genes during oogenesis, an important model system for the study of numerous fundamental questions in biology. Here, we show that short hairpin RNAs (shRNAs), modeled on an endogenous microRNA, are extremely effective at silencing gene expression during oogenesis. We also describe our progress towards building a genome-wide shRNA resource. Total RNA was isolated using Trizol reagent (Invitrogen) and size-fractionated by PAGE. These were independently processed and sequenced using the Illumina GAII platform. In total, three libraries were analyzed.

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:Drosophila LID RNAi gene expression profiling

Project description:ISWI RNAi in Drosophila SL2 cells

Project description:Drosophila ROW RNAi gene expression profiling

Project description:Genome wide distribution of gammaH2AvD in Wild Type and RNAi dH1 Drosophila melanogaster S2 cells