Project description:Transcriptional profiling of anterior ovarioles (germaria and round previtellogenic egg chambers) of w1118 virgin females of Drosophila melanogaster 1 to 8 days post eclosion.
Project description:The biochemical and molecular mechanisms of insect cold acclimation prior to cold stress have been relatively well explored. The mechanisms linked to recovery and repair after cold stress received much less attention.Here we focus on recovery from cold stress in the larvae of vinegar fly (Drosophila melanogaster) that were exposed to two physiologically distinct cold stress situations; supercooling (S, survival > 90%) and freezing (F, survival < 10%), both at -5°C.The transcriptomic responses to cold stress were analyzed.
Project description:In the field, insects suffer multiple cold exposures during winter. When exposed to repeated low temperatures, Drosophila melanogaster females showed an increase in survival, but a reduction in reproduction. In this study, the microarrays were used to analyze the gene expression of female D. melanogaster after multiple, single sustained (or single prolonged) and single short cold treatments, which exposed the flies at 0 M-0C for repeated 2 h, single 10 h and single 2 h respectively. Candidate genes that were involved in 6 h recovery from different types of cold exposures were identified. After repeated cold exposures, candidates particularly included genes involved in muscle protein and muscle activity. Stress-related genes, Turandot A, Turandot C, and Turandot M were up-regulated in response to multiple cold exposures, and improve the cold survival in female D. melanogaster. This work also suggested a strong relationship between cold exposure and the immune system. I suggest that in fruit flies, chilling injuries after cold exposure may induce immune responses and contribute to recovery from cold.
Project description:Thermal acclimation study on Drosophila melanogaster reared at 3 different temperatures (12, 25, and 31oC). The proteomic profiles of D. melanogaster under these different temperatures were analyzed and compared using label-free tandem mass spectrometry.