Project description:Staufen-associated mRNAs were identified in early Drosophila embryos by RNA-co-immunoprecipitation followed by microarray analysis (RIP-Chip), using two complementary approaches: RIP-Chip from wild-type embryos using a synthetic anti-Staufen antibody, and RIP-Chip from transgenic GFP-Staufen-expressing embryos using an anti-GFP antibody. Genome-wide transcript expression in whole embryos was also assessed for the wild-type and GFP-Staufen lines. There are 18 samples in total. These include 3 replicates each of 1) gene expression profiling from total mRNA isolated from wild-type 0-3 hour embryos, 2) synthetic anti-Staufen antibody RNA co-immunoprecipitations of endogenous Staufen from wild-type 0-3 hour embryos, 3) control synthetic antibody RNA co-immunoprecipitations from wild-type 0-3 hour embryos, 4) gene expression profiling from total mRNA isolated from transgenic GFP-Staufen expressing 0-3 hour embryos, 5) anti-GFP RNA co-immunoprecipitations of GFP-Staufen from transgenic GFP-Staufen expressing 0-3 hour embryos, 6) anti-FLAG control RNA co-immunoprecipitations from transgenic GFP-Staufen expressing 0-3 hour embryos.
Project description:Staufen-associated mRNAs were identified in early Drosophila embryos by RNA-co-immunoprecipitation followed by microarray analysis (RIP-Chip), using two complementary approaches: RIP-Chip from wild-type embryos using a synthetic anti-Staufen antibody, and RIP-Chip from transgenic GFP-Staufen-expressing embryos using an anti-GFP antibody. Genome-wide transcript expression in whole embryos was also assessed for the wild-type and GFP-Staufen lines.
Project description:Proteins co-purifying with recombinantly purified and N-terminally GFP-3C-tagged CTCF N-terminus (amino acids 1-293) produced in bacteria were identified by incubating the tagged bait with soluble nuclear protein extracts from 0-12h hour-old wildtype (OregonR strain) Drosophila melanogaster embryos.
Project description:BRAT-associated mRNAs and PUM-associated mRNAs were identified in early Drosophila embryos by RNA co-immunoprecipitation of the endogenous proteins using synthetic antibodies, followed by microarray analysis (RIP-Chip). Nine RNA co-immunoprecipitations were performed. This includes 3 biological replicates each of 1) anti-BRAT RNA co-immunoprecipitations from wild-type 0-3 hour embryos, 2) anti-PUM RNA co-immunoprecipitations from wild-type 0-3 hour embryos, and 3) control antibody RNA co-immunoprecipitations from wild-type 0-3 hour embryos. BRAT samples and PUM samples were each normalized separately with the control samples, for a total of 12 processed samples (3 BRAT with 3 control normalized together, and 3 PUM with 3 control normalized together) from the 9 RNA co-immunoprecipitations.
Project description:To identify Aub function in mRNA regulation in the Drosophila embryo, we have performed mass spectrometry analysis of Aub interactors, following immunoprecipitation of GFP-Aub in 0-2 hour-embryos. Immunoprecipitation of GFP alone was used as negative control. Because Aub accumulates at high levels in the germ plasm, GFP-Aub immunoprecipitation was also performed in oskar mutant embryos that do not assemble the germ plasm. Proteins coprecipitating with GFP-Aub were similar in wild-type and oskar mutant embryos. Translation factors were enriched among proteins coprecipitating with Aub.
Project description:RIN-associated mRNAs were identified in early Drosophila embryos by RNA co-immunoprecipitation of the endogenous protein using a synthetic antibody (anti-RIN D072), followed by microarray analysis (RIP-Chip).
Project description:BRAT-associated mRNAs and PUM-associated mRNAs were identified in early Drosophila embryos by RNA co-immunoprecipitation of the endogenous proteins using synthetic antibodies, followed by microarray analysis (RIP-Chip).
Project description:To identify SmaugM-bM-^@M-^Ys target mRNAs on a genome-wide scale we used ribonucleoprotein (RNP) co-immunoprecipitation followed by microarray analysis of the co-purifying mRNAs (RIP-Chip). Extracts, prepared from wild-type embryos collected 0-3 hours post-egglaying, were immunoprecipitated with an anti-Smaug antibody (Smaug RIPs) while control immunoprecipitations using non-immune serum served as a negative control (control RIPs). Genome-wide transcript expression in wild-type embryos were also assessed and used as reference. There are 11 array experiments presented here: 1. gene expression profiling of total mRNA sample extracted from wild-type 0-3 hour embryos (3 technical replicates performed using a pooled input reference sample); 2. RNA co-immunoprecipitations of endogenous Smaug (Smaug RIPs) from wild-type 0-3 hour embryos (3 biological replicates and 1 technical replicates); 3. control RNA co-immunoprecipitations (control RIPs) from wild-type 0-3 hour embryos (3 biological replicates and 1 technical replicates).