Project description:This submission contains 3 different datasets:
- series A: D. melanogaster female ? D. simulans male embryos vs internal standard of pooled D. simulans and D. melanogaster (1:1) embryos
- series B: D. simulans female ? D. melanogaster male embryos vs internal standard of pooled D. simulans and D. melanogaster (1:1) embryos
- series E: D. melanogaster female ? D. simulans male adult heads vs internal standard of pooled D. simulans and D. melanogaster (1:1) adult heads
Each dataset is in triplicates.
Quantitation was performed with isobaric isotopologues labelling.
Project description:We used RNA sequencing to examine the transcriptomes of male and female heads from experimentally-evolved D. melanogaster populations after 117 generations of mating system manipulation in order to examine the pattern of evolution in sex-biased genes.
Project description:Expression data for aging female drosophila melanogaster Female drosophila heads were collected RNA extraction and hybridization on Affymetrix microarrays.
Project description:High-throughput sequencing of Drosophila melanogaster small RNAs. total RNA, ~18-26nt RNAs isolated using PAGE, ligation to adapters requires 5' monophosphate and 3' OH Small RNAs were sequenced from D. melanogaster heads (male and female), body (male and female), S2 and Kc cells and different stages of embryo. Raw sequences were clipped by 3' linker sequences recognition, and select clipped sequences longer than 18 nt
Project description:Investigation of gene expression level changes in evolved polygamous and monogamous populations of Drosophila melanogaster. The populations investigated are described in Hollis et al. 2011. Populations with elevated mutation load do not benefit from the operation of sexual selection. Journal of Evolutionary Biology 24: 1918-1926. A study using total RNA extracted from male and female virgin 4-day old Drosophila melanogaster and then transcriptionally profiled with 12x135k Nimblegen arrays. Also, transcriptional profiling of male and female heads from the same populations using Illumina RNA-Seq.
