Project description:We performed single cell RNA sequencing to investigate the gene expression changes upon maternal stress in progeny drosophila posterior midgut.

Project description:We performed single cell RNA sequencing to investigate the gene expression changes upon maternal stress in progeny drosophila posterior midgut.

Project description:Gene expression profile at single cell level of intestinal cells from drosophila posterior midgut 1

Project description:We found that the midgut shows striking regional differentiation along its anterior-posterior axis. Ten distinct subregions differ in cell morphology, gene expression and aspects of Notch signaling. RNA from isolated regions that was analyzed by RNAseq revealed spatially regulated expression of hundreds of enzymes and other genes with likely tissue functions. 10 midgut segments comprising from 1-3 subregions x 3 replicates from each segment = 30 samples

Project description:We found that the midgut shows striking regional differentiation along its anterior-posterior axis. Ten distinct subregions differ in cell morphology, gene expression and aspects of Notch signaling. RNA from isolated regions that was analyzed by RNAseq revealed spatially regulated expression of hundreds of enzymes and other genes with likely tissue functions.

Project description:Methionine restriction is known to extend lifespan in various model organisms including Drosophila melanogaster. In this analysis, we performed scRNAseq of Drosophila female midgut samples to understand the cell type specific response to methionine restriction.

Project description:We mapped about 25 million reads per sample to the Drosophila melanogaster genome (dm6). We confirmed that sterol processing genes are selectively expressed in the posterior midgut. Modifying sterol metabolism in the diet or with Hr96 mutants resulted in significant changes in metabolism transcripts, hormones expressed in enteroendocrine cells, and Notch pathway related genes.

Project description:The main goal of this study was to characterize the transcriptome of the Drosophila midgut during larval development. Larval midguts were collected on three different days during development for RNA extraction and mRNA-seq. Our data show that a drastic transcriptomic change occurs in the midgut between the third and fourth day of larval life, corresponding to the entry into the third instar.

Project description:Comparisons between EcR mutant midgut and a reference control sample from mixed-stage normal midgut Keywords = Drosophila, ecdysone, network, genomic, microarray, organogenesis, EcR, midgut, central nervous system, salivary gland, epidermis, imaginal disc, development Keywords: other

Project description:A midgut reference sample is compared to midgut samples taken at various stages before (18h, 4h), at (0h), and after (2h, 3h, 4h, 5h, 6h, 8h, 10h, 12h) puparium formation. Keywords = Drosophila, ecdysone, network, genomic, microarray, organogenesis, EcR, midgut, central nervous system, salivary gland, epidermis, imaginal disc, development Keywords: other