Project description:We attempted to identify candidate genes that are expressed more highly in the ICM than in TE cells. Mouse ES cells are cultured from the ICM, whereas mouse TS cells are cultured from the TE. Although these cells have been cultured in vitro, they represent the in vitro equivalents of the ICM and TE. Therefore, genes which are expressed more highly in ES than TS in microarray studies were good candidates for genes predominantly expressed in the ICM in blastocysts. We attempted to identify candidate genes that are expressed more highly in the ICM than in TE cells. Mouse ES cells are cultured from the ICM, whereas mouse TS cells are cultured from the TE. Although these cells have been cultured in vitro, they represent the in vitro equivalents of the ICM and TE. Therefore, genes which are expressed more highly in ES than TS in microarray studies were good candidates for genes predominantly expressed in the ICM in blastocysts.

Project description:To find developmental stage specific genes controled by EDA Keywords: development or differentiation design,genetic modification design Triplicated for all samples

Project description:E12.5 mouse whole embryo, E12.5 placenta, embryonic stem (ES) cells, and trophoblast stem (TS) cells were compared on a novel microarray design to validate the system. The in situ-synthesized 60-mer oligonucleotide microarray platform contains approximately 44,000 DNA features, and was designed to detect transcripts from all known genes, as well as about 5,000 potential genes, as identified by the NIA Mouse Gene Index 2.0. Seven external RNA controls were derived from intronic and intergenic yeast genome sequences, and 60-mer probes were spotted 10 time each on the slides. These spike-in RNA controls were diluted to cover 7 orders of magnitude in initial concentration, and used to define a function relating signal intensity to transcript abundance. Keywords: cell type comparison design,development or differentiation design,normalization testing design,reference design E12.5 mouse whole embryo, E12.5 placenta, embryonic stem (ES) cells, and trophoblast stem (TS) cells were compared on a novel microarray design to validate the system. The in situ-synthesized 60-mer oligonucleotide microarray platform contains approximately 44,000 DNA features, and was designed to detect transcripts from all known genes, as well as about 5,000 potential genes, as identified by the NIA Mouse Gene Index 2.0. Seven external RNA controls were derived from intronic and intergenic yeast genome sequences, and 60-mer probes were spotted 10 time each on the slides. These spike-in RNA controls were diluted to cover 7 orders of magnitude in initial concentration, and used to define a function relating signal intensity to transcript abundance.

Project description:Neural induction of ES by Retinoic acid Neural induction of ES by Retinoic acid

Project description:Neural induction of ES by N2B27 monolayer culture Neural induction of ES by N2B27 monolayer culture

Project description:The gold standard for examining pluripotency of stem cells is to see whether cells can contribute to entire body of animals. Here we show that the increased frequency of Zscan4 activation in mouse ES cells not only enhances, but also maintains their developmental potency in long-term cell culture. As the potency increases, even a whole animal can be produced from a single ES cell injected into 4N blastocyst at unusually high success rate. Although Zscan4-activated cells express genes that are also expressed in 2-cell stage mouse embryos, transiently Zscan4-activated state of ES cells is not associated with the high potency of ES cells. It is thus concluded that ES cells acquire higher potency by going through transient Zscan4 activation state more frequently than the regular state. Taken together, our results indicate that frequent activation of Zscan4 can rejuvenate pluripotent stem cells. MC1 ES cells (for pZscan4-Emerald transfection) and R26R6 ES cells (for pZscan4-Cre ERT2 transfection) were grown on gelatin in 6-well plate, 5x10^5cells in suspension were transfected with 1ug of linearized pZscan4-Emerald vector or pZscan4-Cre ERT2 vector using Effectene (QIAGEN) according manufacturer protocol, and plated in gelatin coated 100 mm dishes. Cells were selected with 5 ug/ml blasticidin, colonies were picked on the 8th day, expanded and frozen for further analysis. DNA microarray analysis of pZscan4-Emerald cells was carried out as described. In brief, universal Mouse Reference RNA (Stratagene) were labeled with Cy5-dye, mixed with Cy3-labeled samples, and used for hybridization on the NIA Mouse 44K Microarray v2.2 (manufactured by Agilent Technologies #014117). The intensity of each gene feature was extracted from scanned microarray images using Feature Extraction 9.5.1.1 software (Agilent Technologies). Microarray data analyses were carried out by using an application developed in-house to perform ANOVA and other analyses (NIA Array Analysis software; http://lgsun.grc.nia.nih.gov)

Project description:To identify genes differentially expressed in the intestinal crypts between LOI(+) and LOI(-) mice, we performed microarray experiments using RNA extracted from laser capture microdissection, by microdissecting an average of 8,000 crypts from each of 3 LOI(+) and 3 LOI(-) mice. Keywords: genetic modification design H19 mutant mice with C57BL/6J background carrying a deletion in the H19 gene (3 kb) and 10 kb of the upstream region including differentially methylated region (DMR) were maintained without LOI phenotype by breeding female wild-type C57BL/6J and male H19+/-. Experimental crosses were performed between female H19+/- and male wild-type C57BL/6J to obtain LOI(+) mice and LOI(-) mice. Igf2 on the maternal allele is silenced in LOI(-), i.e. wild type, mice. But when H19 DMR deletion is inherited from mother, the normally silenced Igf2 on maternal allele is activated and LOI (loss of imprinting) of Igf2 occurs. LOI(+) and LOI(-) mice were sacrificed at 120 days, and the tissue pieces of the small intestine were collected from the middle (the third fifth) part and kept frozen at -80C. To detect gene expression change in intestinal progenitor cells clearly, Laser Capture Microdissection (LCM) was performed to collect intestinal crypt cells. The 10 um thick sections were prepared from the frozen small intestine pieces, and 8,000 intestinal crypts at average were dissected by LCM for each of three LOI(+) and LOI(-) mice, and 2 ug of total RNA at least were collected using RNeasy Kit (GIAGEN). 1.7 ug of total RNA for each sample were used for labeling to compare gene expressions in intestinal crypt between LOI(+) and LOI(-) mice.

Project description:To characterize Klf4 downstream genes, we performed microarray analyses of the ES cells knocked down by siRNA of Klf4 gene. Keywords: individual genetic characteristic design ES cells grow without feeders on gelatin coated in complete ES medium. Cells were incubated at 37 0C; 5% CO2. ES cells were transfected with siRNA and pCAGEGFP-IP plasmid. After transfection, cells were cultured for 24 hours, following to drag selection for more 24 hours in the presence of puromycin to ensure concentration of transfectants. Total RNA were extracted with Trizol reagent (Sigma) according to the manufacturer’s instructions.

Project description:E12.5 mouse whole embryo and E12.5 placenta total RNA were pooled to create 25:75, 50:50, and 75:25 ratio mixtures, based on Bioanalyzer quantitation. These samples, along with the original unmixed RNAs, were used as templates for duplicate linear amplification labeling reactions. cRNA target mixtures were hybridized against a Universal Mouse Reference (Stratagene). Pairwise comparison using the NIA Microarray Analysis (ANOVA) software produced log ratios, which were compared to the expected log ratios for genes showing statistically significant (FDR<0.05) differential expression between unmixed embryo and placenta. Keywords: cell type comparison design,development or differentiation design,normalization testing design,reference design E12.5 mouse whole embryo and E12.5 placenta total RNA were pooled to create 25:75, 50:50, and 75:25 ratio mixtures, based on Bioanalyzer quantitation. These samples, along with the original unmixed RNAs, were used as templates for duplicate linear amplification labeling reactions. cRNA target mixtures were hybridized against a Universal Mouse Reference (Stratagene). Pairwise comparison using the NIA Microarray Analysis (ANOVA) software produced log ratios, which were compared to the expected log ratios for genes showing statistically significant (FDR<0.05) differential expression between unmixed embryo and placenta.

Project description:AGEMAP is an initiative of the National Institute on Aging (NIA) designed to study the aging process on mice with Caloric Restriction (CR) versus Ad Libitum (AL) diet. The aim of the AGEMAP project is to provide a valuable source of information about genetic influences involved in aging of the major organ systems. A total of 67 mice (C57BL/6) were sacrificed. Both male and female mice were divided in 7 categories based on the diet and the age. Four categories in ad libitum (1 month, 6 month,16 month and 24 month) and three categories in caloric restriction (6 month, 16 month and 24 month). In the current study we focused on gonads, using microarray hybridization (Agilent platform 44K array) to identify gene expression changes age-associated CR-associated, between young versus old mice at different time points. Keywords: development or differentiation design,replicate design,stimulus or stress design,time series design The experiment was done as time-course type. Four time points for mice on ad libitum diet (1 month, 6 month, 16 month and 24 month), and three time points on caloric restriction diet. For each time point we used two biological replicates. We analyzed gene expression patterns in ovaries and testes sampled from 1-, 6-, 16-, and 24-month-old C57BL/6 mice fed on AL and CR diets (Figure 1A and D). Mice were kept on an AL diet until 14 weeks of age and then split into AL and CR gonads . Two individual animals for each condition were used for the microarray studies. We examined a total of 28 samples (two AL ovaries at each of 1, 6, 16, and 24 months; two CR ovaries at 6, 16, and 24 months; two AL testes at 1, 6, 16, and 24 months; and two CR testes at 6, 16, and 24 months). These 28 samples were hybridized on whole-genome oligonucleotide microarrays bearing approximately 44,000 probes, representing 25,585 nonredundant genes with gene symbols (Additional file 1). The same RNA samples were used for quantitative reverse-transcription polymerase chain reaction (RT-PCR)