Project description:Transcriptome analysis of Piwi-deficient ISCs isolated by FACS. We used esg::Gal4, UAS::GFP; tub::Gal80ts to drive the expression of an RNAi against mCherry (control) or Piwi for 7 days.

Project description:Purpose: localized aberrant cell proliferation induced by activation of Yki in ISCs impairs muscle functions. To gain insight into the cross talk between intestine and muscle, we performed a transcriptomic analysis of thoracic muscles in ISC overproliferation flies. Methods: To extract total RNAs for RNA-Seq experiment, we used 10 thoraces dissected out from both esg-Gal4, tub-Gal80ts, UAS-GFP/+ (Con) and esg-Gal4, tub-Gal80ts, UAS-GFP/UAS-Yki-act (Yki) flies incubated for 8 days at 29°C. After assessing RNA quality with Agilent Bioanalyzer, mRNAs were enriched by poly-A pull-down. Then, sequencing libraries constructed with Illumina TruSeq RNA prep kit were sequenced using Illumina HiSeq2000 at the Columbia Genome Center (http://systemsbiology.columbia.edu/genome-center). We multiplexed samples in each lane, which yields targeted number of single-end 100 bp reads for each sample, as a fraction of 180 million reads for the whole lane. Sequence reads were mapped back to the Drosophila genome (flybase genome annotation version r5.51) using Tophat. With the uniquely mapped reads, we quantified gene expression levels using Cufflinks (FPKM values). Next, we performed data normalization on the read counts and applied a negative binomial statistical framework using the Bioconductor package DESeq to quantify differential expression between experimental and control data. Results: Gene list enrichment analysis of the downregulated muscle transcriptome by ISCs Yki overexpressioin revealed a striking enrichment of multiple metabolic processes impinging on carbohydrate metabolism, amino acid metabolism, metabolism of vitamins and cofactors, and metabolism of xenobiotics by cytochrome P450. Interestingly, target genes of Foxo, a transcription factor inhibited by insulin/IGF signaling, are enriched in the upregulated muscle transcriptome of ISCs Yki overepxression flies. In particular, induction of InR and Thor, well-characterized targets of Foxo, are validated with qPCR. Conclusions: Our study represents ISCs overproliferation induced by Yki overepxression remotedly regulates muscle function and gene expression probally via modulation of insulin signaling in muscle. Our results show that RNA-seq offers a comprehensive evaluation of signaling network and biological process in organ communication. Thoraces mRNA profiles of both esg-Gal4, tub-Gal80ts, UAS-GFP/+ (Con) and esg-Gal4, tub-Gal80ts, UAS-GFP/UAS-Yki-act (Yki) flies incubated for 8 days at 29°C were generated by deep sequencing, in replicate, using Illumina HiSeq2000.

Project description:Purpose: localized aberrant cell proliferation induced by activation of Yki in ISCs impairs muscle functions. To gain insight into the cross talk between intestine and muscle, we performed a transcriptomic analysis of thoracic muscles in ISC overproliferation flies. Methods: To extract total RNAs for RNA-Seq experiment, we used 10 thoraces dissected out from both esg-Gal4, tub-Gal80ts, UAS-GFP/+ (Con) and esg-Gal4, tub-Gal80ts, UAS-GFP/UAS-Yki-act (Yki) flies incubated for 8 days at 29°C. After assessing RNA quality with Agilent Bioanalyzer, mRNAs were enriched by poly-A pull-down. Then, sequencing libraries constructed with Illumina TruSeq RNA prep kit were sequenced using Illumina HiSeq2000 at the Columbia Genome Center (http://systemsbiology.columbia.edu/genome-center). We multiplexed samples in each lane, which yields targeted number of single-end 100 bp reads for each sample, as a fraction of 180 million reads for the whole lane. Sequence reads were mapped back to the Drosophila genome (flybase genome annotation version r5.51) using Tophat. With the uniquely mapped reads, we quantified gene expression levels using Cufflinks (FPKM values). Next, we performed data normalization on the read counts and applied a negative binomial statistical framework using the Bioconductor package DESeq to quantify differential expression between experimental and control data. Results: Gene list enrichment analysis of the downregulated muscle transcriptome by ISCs Yki overexpressioin revealed a striking enrichment of multiple metabolic processes impinging on carbohydrate metabolism, amino acid metabolism, metabolism of vitamins and cofactors, and metabolism of xenobiotics by cytochrome P450. Interestingly, target genes of Foxo, a transcription factor inhibited by insulin/IGF signaling, are enriched in the upregulated muscle transcriptome of ISCs Yki overepxression flies. In particular, induction of InR and Thor, well-characterized targets of Foxo, are validated with qPCR. Conclusions: Our study represents ISCs overproliferation induced by Yki overepxression remotedly regulates muscle function and gene expression probally via modulation of insulin signaling in muscle. Our results show that RNA-seq offers a comprehensive evaluation of signaling network and biological process in organ communication.

Project description:Male flies were crossed to virgins of genotype yw;esg-Gal4,UAS-GFP;tub-Gal80ts/Tm3,Sb. Progeny was collected and aged 3-4 days before shifting for 7 days to 29 degrees to induce RNAi expression. Guts were dissected for 2 biological replicates/condition, each containing 80-100 guts, dissociated and GFP-positive cells were FACS-sorted. RNA was isolated using the PicoPure RNA-isolation kit and libraries were generated. Sequencing was done by distributing the 4 libraries over 5 lanes on the Illumina HiSeq2000 platform.

Project description:Purpose: identify global changes in gene expression in thorax tissues caused by the presence of gut tumors generated by yki expression in intestine stem cells. Note that the thorax of adult flies is composed mainly by muscle tissue but fat body is also present. Changes in gene expression do not exclusively reflect the muscle transcriptome Methods: To extract total RNAs for RNA-Seq experiment, we used 8-10 thoraces dissected out from both esg-Gal4, tub-Gal80ts, UAS-GFP/+ (Con) and esg-Gal4, tub-Gal80ts, UAS-GFP/UAS-yki-act (yki) flies, making sure the gut of these flies was completely removed. Crosses were kept at 18°C to avoid expression of yki during development. Adult males were collected every 24-48 hours and then shifted to 29°C to induce gut yki-tumors. To assess transcriptional changes during the recovery phase, flies were moved to 18°C after a period of 14 days at 29°C in order to shutdown yki expression in the gut and suppress tumor growth. 6-day time points were analyzed during the recovery phase and included T20R, T26R, T32R and T38R. After assessing RNA quality with Agilent Bioanalyzer, rRNA depletion was performed. Then, sequencing libraries constructed with Illumina TruSeq RNA prep kit were sequenced using. We multiplexed samples in each lane, which yields targeted number of single-end 75 bp reads for each sample, as a fraction of 180 million reads for the whole lane. Sequence reads were mapped back to the Drosophila genome (flybase genome annotation version r6.30) using STAR. With the uniquely mapped reads, we quantified gene expression levels using Cufflinks (FPKM values). Next, differentially expressed genes between experimental and control data were analyzed with DESeq2. Results: Gene list enrichment analysis of the downregulated muscle transcriptome by yki overexpression in intestine stem cells revealed a striking enrichment of multiple metabolic processes impinging on carbohydrate metabolism, amino acid metabolism, and energy metabolism. Interestingly, target genes of Foxo, a transcription factor inhibited by insulin/IGF signaling, are enriched in the upregulated thorax transcriptome of ISCs yki overexpression flies and downregulated during recovery (T20R, T26R, T32R and T38R). In particular, induction of InR and Thor, well-characterized targets of Foxo, are validated with qPCR. Also, the transcription factor REPTOR that is modulated by mTOR signaling and regulates metabolism, was found to be upregulated in thoraces of flies with yki-tumors and downregulated during recovery. Conclusions: Our study discovered that the generation of yki-tumors in the gut drives the upregulation of REPTOR in the thorax of adult flies.

Project description:RNA-Seq of amplified mRNA from sorted esg+-midgut progenitor cells expressing esgRNAi or UAS-esg AND RNA-Seq of whole midgut tissue from flies overexpressing UAS-esg and UAS-esg+UAS-dIAP (+control empty vector RNAi, UAS-dIAP and w1118) using the MyoIA-Gal4ts EC-driver

Project description:The Drosophila midgut is an ideal model system to study molecular mechanisms that interfere with the intestinal stem cells’ (ISCs) ability to function in tissue homeostasis. Due to the lack of a combination of molecular markers suitable to isolate ISCs from aged intestines, it has been a major challenge to study endogenous molecular changes of ISCs during aging. Our FACS-based approach using the esg-GAL4, UAS-GFP fly line allowed the isolation of a cell population enriched for ISCs from young and old midguts by their small size, little granularity and low GFP intensity. The isolated ISCs were subsequently used for RNA sequencing to identify endogenous changes in the transcriptome of young versus old ISCs.

Project description:Tissue stem cells divide asymmetrically to self-renew and generate differentiated progeny to maintain tissue homeostasis. Escargot (Esg) is a transcriptional repressor that is expressed in multiple stem cell populations in Drosophila melanogaster. Reduced esg function in intestinal stem cells (ISCs) causes a loss of ISCs and a biased differentiation of the daughter enteroblasts (EBs) toward the enteroendocrine (EE) cell fate. Loss of esg leads to an upregulation of differentiation factors and reduced Notch activity within EBs, indicating that Esg is a pivotal regulator of homeostasis in the intestine, supporting self-renewal to maintain a healthy stem cell pool as well as differentiation of progenitor cells. To identify potential transcriptional targets that mediate these phenotypes, in vivo DamID was used to generate the data deposited herein. 3 biological relicates were performed for Esg (with one dye-swap).

Project description:During Drosophila melanogaster oogenesis, the JAK/STAT and EGFR pathways are both required to specify a population of somatic epithelial cells called the posterior follicle cells (PFCs). The PFCs are important because they generate a signal at mid-oogenesis that is required to establish the embryonic axes. To identify novel PFC-expressed transcripts, egg chambers containing ectopic PFCs were generated and microarrays were then used to identify upregulated transcripts. To generate ectopic PFCs, GAL80TS / CyO ; UAS-Upd, UAS-λtorpedo/TM6B flies were crossed to GR1-GAL4 flies to obtain the genotype GAL80TS/+ ; GR1-GAL4/UAS-Unpaired, UAS-λtorpedo. Sibling females of genotype GAL80TS/+ ; GR1-GAL4/TM6B were dissected as controls.

Project description:The method of mRNA tagging was recently developed to isolate mRNA population from muscle tissues in Caenohabditis elegans. This method utilizes a FLAG-tagged poly(A)-binding protein (PABP), which can bind to poly(A)-tail of eukaryotic mRNA. Thus, the mRNA population from specific tissue, in which FLAG- tagged PABP is expressed, can be co-immunoprecipitated with FLAG-tagged PABP using FLAG-specific antibody. To evaluate the applicability of this method to isolate mRNA from specific tissue in Drosophila, we generated Rh1-GLA4/P{UAS-dPABP-FLAG} flies which express a FLAG-tagged PABP in photoreceptor cells R1-R6. We then prepared 4 individual mRNA samples (subset 1: GSM30900-30903)) presumably from photoreceptor cells of these flies by mRNA tagging method. We also prepared 4 individual mRNA samples (subset 2: GSM30832-30835) from whole heads of the Rh1-GAL4/P{UAS-dPABP-FLAG} flies, as well as 6 individual mRNA samples (subset 3: GSM30824-30828, GSM30830) from whole heads of wild type Canton-S flies. The total 14 mRNA samples were used to synthesize target separately and each of the resultant target was used to hybridize with 1 Drosophila Genome Array DrosGenome1 Affymetrix GeneChip. The raw data of the 14 microarray were imported to dChip program (version 1.3). The arrays were normalized to a common baseline array that has the median overall brightness. The expression value for each probe set on each chip was then calculated as model-based expression index (MBEI) by Perfect Match-only model. By comparing the results of subset 1 and subset 2, we found most known photoreceptor-specific genes were indeed enriched by mRNA tagging. Through the comparison of the results of subset 2 and subset 3, we found the mRNAs of most genes known to be involved in fly visual function were underrepresented in subset 2, which could be due to squelching effect of GAL4. By combining the data of subset 1, 2 and 3, we were able to identify 11 new photoreceptor cell-enriched genes. Keywords: other