Project description:This SuperSeries is composed of the following subset Series: GSE9242: Dietary folate depletion and repletion in A/J and C57BL/6J mice GSE9243: Dietary folate depletion and repletion in C57BL/6J mice, ApoE knockout mice, and choline supplemented C57BL/6J mice Keywords: SuperSeries Refer to individual Series

Project description:Defects in homocysteine and folate metabolism are associated with increased risks for neural tube and congenital heart defects, cardiovascular disease and stroke, cancers, and neurodegeneration. In many but not all cases, dietary supplementation with folate significantly reduces the severity and incidence of these conditions. Common polymorphisms modulate these metabolic pathways and disease risks, but do not fully account for the particular birth defects and adult diseases that occur in at-risk individuals. To test whether other pathways contribute to disease pathogenesis, we analyzed global and pathway-specific changes in gene expression and levels of selected metabolites after depletion and repletion of dietary folate in two genetically distinct inbred strains of mice. Compared to the C57BL/6J strain, A/J showed greater homeostatic response to folate perturbation by retaining a higher serum folate level and minimizing global gene expression changes. Remarkably, folate perturbation led to systematic strain-specific differences only in the expression profile of the cholesterol biosynthesis pathway and translated to changes in levels of serum and liver total cholesterol. By genetically increasing serum and liver total cholesterol levels in APOE deficient mice, we modestly but significantly improved folate retention during folate depletion, suggesting an interplay between homocysteine and folate metabolism and cholesterol metabolism. Absence of measurable changes in global methylation patterns or amelioration of effects with supplementation with an alternative methyl donor suggest that dietary folate perturbations do not act through large-scale or general changes in methylation. These results suggest that homeostatic responses in cholesterol metabolism contribute to the beneficial effects of dietary folate supplementation. Keywords: time course, stress response, diet, genetic, homeostasis Six-week old female C57BL/6J and B6.129P2-Apoetm1Unc/J (Piedrahita et al. 1992) mice were purchased from the Jackson Laboratory. All mice were raised on a control diet containing four ppm folic acid (Basal Diet 5755, TestDiet) for one week before the start of studies. Mice were then placed on folic acid deficient diet (58C3, TestDiet) containing 1% succinylsulfathiazole, a non-absorbable antibiotic commonly used to suppress folate production by bacteria in the intestine, for 14 days. A subset of these mice were placed back on control diet for 7 days after 14 day depletion. There were three groups of mice that underwent folic acid depletion and repletion. ApoE knockout mice on C57BL/6J background, C57BL/6J mice supplemented with 25mM choline and 50mM saccharine in drinking water, and C57BL/6J mice supplemented with 50mM saccharine. Saccharine was used to reduce the bitter taste of choline in the drinking water. We also had C57BL/6J mice on the control diet for 14 days and 21 days. These mice served as controls for treated mice from each time point during hybridization. The folate level in the control diet for this study was significantly lower than the previous study (GSE9242) due to greater loss of folic acid by irradiation of the diet. There were eight replicate mice per treatment group per folic acid perturbation protocol. An equal amount (by weight) of liver tissue from eight replicate mice was separated into two pools of four replicate tissues each. Pooled RNA from treated mice and pooled RNA from control mice for each time point were aminoallyl labeled with Cy3 and Cy5 in duplicate with reversing of dyes.

Project description:Polycomb group (PcG) proteins are essential for accurate axial body patterning during embryonic development. PcG-mediated repression is conserved in metazoans and is targeted in Drosophila by Polycomb response elements (PREs). Targeting sequences in humans have not been described. While analyzing chromatin architecture in the context of human embryonic stem cell (hESC) differentiation, we discovered a 1.8kb region between HOXD11 and HOXD12 (D11.12) that is associated with PcG proteins, is nuclease hypersensitive, and shows alteration as hESCs differentiate. D11.12 repressed luciferase expression from a reporter construct both before and after differentiation of mesenchymal stem cells into adipocytes. Full repression by D11.12 required a highly conserved region and YY1 binding sites. Repression relied upon PcG proteins Bmi1 and Eed and a YY1-interacting partner, RYBP. We conclude that D11.12 is a Polycomb-dependent regulatory region with similarities to Drosophila PREs, indicating conservation in the mechanisms that target PcG function in mammals and flies. Data contains microarray measurements of the MNase-digested mononucleosomal fragments in hES cells, derived MSCs, osteoblasts and adipocytes. The ChIP-chip data includes Suz12, Bmi1 and H3K27me3 measurements in MSCs and adipocytes.

Project description:+Gly 20, 40, 80: Cells were grown to early log phase (OD600 ~ 0.2) at 30oC in 1 liter of minimal B medium (Cherest, H., and Surdin-Kerjan, Y. (1992) Genetics 130, 51-58) and t=0 time point samples were harvested (250 ml). The remainder of the medium was supplemented with 10 mM glycine incubated at 30oC and samples (250 ml) harvested at 20, 40 and 80 minutes. All cells were harvested by rapid centrifugation at room temperature then flash frozen in liquid nitrogen. -Gly 20, 40, 80: Cells were grown to early log phase (OD600 ~ 0.2) at 30oC in 1 liter of minimal B medium (Cherest, H., and Surdin-Kerjan, Y. (1992) Genetics 130, 51-58) supplemented with 10 mM glycine and t=0 time point samples were harvested (250 ml). The remainder of the medium was filtered and the cells were rapidly resuspended in 750 ml of pre-warmed B minimal medium, incubated at 30oC and samples (250 ml) harvested at 20, 40 and 80 minutes. All cells were harvested by rapid centrifugation at room temperature then flash frozen in liquid nitrogen. Keywords: time-course

Project description:we want to test how different diets (high energy diet HED and low energy diet LED) alter muscle methabolism in pigs. we perform different array experiments using an human platform (GPL2011) and RNA extracted from pig skelethal muscle. thank's this we also test cross-species hybridisation. extraction of RNA from pig skeletal muscle by a modification of Chomczynski protocol. cDNA was purified and labelled with Cy3 and Cy5 fluorochromes using the cDNA labeling purification module kit (Invitrogen). The HED samples were analysed in comparison to LED samples, used as reference. The labelled cDNA were appropriately coupled and used for competitive hybridisation on the same microarray at 42°C for 16h. The relative intensity of labelled cDNA in HED and LED was acquired with ScanArray LITE scanner (PerkinElmer Life Sciences, Inc). platform used for our experiments is GPL2011.

Project description:Three way boxed experiment comparing EGFP positive renal, lung and brain macrophages. Each "arm" of the comparison is a pairwise comparison containing a dye swap to eliminate dye bias.

Project description:Pairwise comparison of total kidney RNA extracted from Nas1 knockout mice versus total kidney RNA extracted from wildtype mice Pairwise comparison containing a dye swap to eliminate dye bias

Project description:Teleost fish have the remarkable ability to regenerate their body parts including heart, spinal cord, and the caudal fin, while many higher vertebrates including us humans have only a limited ability. To facilitate molecular and genetic approaches for regeneration, we previously established an assay using the fin fold of early stage larvae, which regenerate their caudal fin folds as in adult regeneration. Here, we performed transcriptional profiling of regenerating larval fin folds and identified genes with differential expression during regeneration. Gene expression profiling of zebrafish larval fin-fold regeneration was performed by comparing amputated fin fold and uncut control. Keywords: Stress response, injury response. Two time points, 18-24 hours post amputation (hpa) and 48 hpa, of regenerating fin fold were analyzed. We performed one replicate per each time point. For microarray expression profiling, total RNA was extracted from regenerating and uncut caudal fin folds of AB strain larvae. Tail tissues of 16-24 hpa, 48 hpa, and uncut siblings of the respective stages including 3-5 posterior somite segments were collected on ice. Total RNA was extracted by using TRIzol reagent (Invitrogen, Carlsbad, California, United States) according to the manufacturer’s instruction. The quantity and quality of total RNA were assessed by absorbance at 260 nm and 280 nm and by gel electrophoresis. Approx. 9 μg of total RNA was recovered from ~250 tail tissues at 16-24 hpa or uncut control tissues; and approx. 5 μg, from ~130 tail tissues at 48 hpa or uncut control tissues. Probes for microarray analysis were labeled with cy3 (amputated fin fold at 16-24 hpa and uncut control at 48 hpa) or cy5 (uncut control at 16-24 hpa and amputated fin fold at 48 hpa), and used for hybridization.

Project description:Enteric pathogens have developed several resistance mechanisms to survive the antimicrobial action of bile. We investigated the transcriptional profile of Vibrio cholerae O1 El Tor strain C6706 under virulence gene inducing conditions, in the presence and absence of bile. Microarray analysis revealed that the expression of 119 genes was affected by bile. The mRNA levels of genes encoding proteins involved in transport was increased in the presence of bile, whereas mRNA levels of genes encoding proteins involved in pathogenesis and chemotaxis was decreased. This study identified genes encoding transcriptional regulators from the TetR family (vexR and breR) and multidrug efflux pumps from the RND superfamily (vexB and vexD [here renamed breB]) that were induced in response to bile. Further analysis regarding vexAB and breAB expression in the presence of various antimicrobial compounds established that vexAB was induced in the presence of bile, SDS or novobiocin, whereas induction of breAB was specific to bile. BreR is a direct repressor of the breAB promoter and is able to autoregulate its own expression, as demonstrated by transcriptional and electrophoretic mobility shift assays (EMSA). Expression of breR and breAB is induced in the presence of the bile salts cholate, deoxycholate or chenodeoxycholate and EMSA showed that deoxycholate is able to abolish formation of BreR-PbreR complexes. We propose that deoxycholate is able to interact with BreR and induce a conformational change that will interfere with its DNA binding ability resulting in breAB and breR expression. These results provide new insight into a transcriptional regulator and a transport system that likely play an essential role in the ability of Vibrio cholerae to resist the action of bile in the host. Keywords: Vibrio cholerae response to bile Three independent experiments were performed for the microarray analysis. From each experiment, RNA was obtained from four different time points and was prepared for hybridization, therefore, a total of 3 slides were analyzed per time point. The growth conditions were as follows; C6706 str2 was grown 15 h in LB medium at 30 degrees C with aeration. The cultures were then diluted 100-fold into AKI medium with, or without, 0.4% crude bile (high bile concentration) and were grown at 37degrees C for 3.5 h stationary followed by 2 h with aeration to induce virulence gene expression. Then the cultures were diluted 100-fold into AKI medium with, or without, 0.02% crude bile (low bile concentration) and were grown at 37 degrees C for 2 h stationary. Samples were obtained from 4 different time points: 2, 4, and 5.5 h from the high bile cultures, and at 2 h from the low bile cultures.

Project description:The data in this series forms the basis for the analysis presented in the above named paper. In this study, we used cDNA microarrays to ask if changes in gene expression are observed in response to a dietary shift in Drosophila melanogaster, a dietary generalist. Methods: Flies used in this study were derived from a multifemale collection at Iraklion, Crete, Greece, in August 2002 and reared in the laboratory for several generations. Three replicates were performed. At the start of each replicate, we collected 300 newly eclosed adults, separated them by sex, and stored them at low density in shell vials with standard cornmeal media for 3 days. Sexually mature males and females were placed together and allowed to mate. Mated females were allowed to oviposit overnight in chambers containing cornmeal medium filled Petri dishes (http://flyfood.arl.arizona.edu/cornmeal.php3). Hatching first instar larvae were reared for 36 hours on cornmeal medium in Petri dishes and then transferred to one of two conditions: 1) a control Petri dish consisting of cornmeal medium, or 2) an experimental Petri dish containing pure mashed banana. After 24 hours, larvae were plucked from these dishes, washed, transferred to microcentrifuge tubes in groups of 20, and flash frozen in liquid nitrogen. All samples were stored at -80C until RNA extraction. RNA was extracted from each tube using a Qiagen RNeasy kit (Qiagen, Inc., standard protocol). We used cDNA microarrays printed by the Genetic Analysis and Technology Core Custom Microarray Facility at the University of Arizona to assess expression levels. Printing material was amplified from BDGP Unigene library v1.0 containing 6K ESTs. Products were purified using Millipore Multiscreen filtration plates and re-suspended in 50%DMSO solution. Each product was printed in triplicate on Corning GAPSII aminosilane slides using a Virtek Chipwriter PRO microarray spotter. Between 10-15 micrograms of RNA were used for each reaction. RNA was reverse transcribed and labeled with one of two fluorescent dyes, Cy3 or Cy5 (details of protocol at http://gatc.arl.arizona.edu/Services/Microarray/aminoallyllabelling.html). Hybridization was completed on a Genomic Solutions Gentac automated hybridization station. Labeled material was allowed to hybridize to the array for 16 hours at 60°C. Wash conditions were: 1) low stringency wash twice at 50°C for 40seconds (1X SSC/ 0.2% SDS), 2) medium stringency wash twice at 42°C for 40 seconds ( 0.1X SSC/ 0.2% SDS), 3) high stringency wash twice at 42°C for 40 seconds (0.1X SSC). Hybridized arrays were scanned using the Applied Precision ArrayworxE slide scanner. We performed three independent hybridizations and three dye flips for a total of six arrays (2 treatments x 2 dyes x 3 replications = 12 samples, for 6 arrays). Each replicate consisted of an independent biological sample isolated on separate days. Identification of series: There are 18 series in this experiment. The second number in each series record represents the slide number (there were six slides used in this experiment). The third number in each series record represents the set on a given slide. For instance, for series record 331_2_1, these data correspond to slide 2, set 1. Each slide has 3 series numbers assoicated with it, representing set 1,2, or 3 on the slide. Each slide was paired with another in a "dye flip" experiment; thus, slides 2 and 3 were paired, slides 25 and 28 were paired, and slides 29 and 30 were paired. Keywords = dietary shifts Keywords = ecological genomics