Project description:Tcl1 is one of embryonic stem cell specific transcripts identified by digital differential display analysis. Tcl1 is highly expressed during early embryogenesis and to some extent in embryonic stem cells. Its expression in adult tissues is restricted to testis and ovary, and is found to decline if Oct-3/4 expression is suppressed in embryonic stem cells. It is reported that the female knockout mice exhibit reduced fertility. It was first identified in human T-cell tumors and the tumorigenic property was proved by a series of transgenic studies. We have used DNA microarray to identify potential Tcl1 targets in embryonic stem cells and the influence of Tcl1 on stemness. Experiment Overall Design: We analyzed two arrays, each comparing expression profiles of a Tcl1 gene disruptant and a Tcl1 stable transformant. We used different clones with their dyes swapped.(biological replication)

Project description:POU transcription factor Pou5f1 (Oct3/4) is required to maintain ES cells in an undifferentiated state. Here we show that global expression profiling of Oct3/4-manipulated ES cells delineates the downstream target genes of Oct3/4. Combined with data from genome-wide chromatin-immunoprecipitation assays, this analysis identifies not only primary downstream targets of Oct3/4, but also secondary or tertiary targets. Furthermore, the analysis also reveals that downstream target genes are regulated either positively or negatively by Oct3/4. Identification of a group of genes that show both activation and repression depending on Oct3/4 expression levels provides a possible mechanism for the requirement of appropriate Oct3/4 expression to maintain undifferentiated ES cells. As a proof-of-principle study, one of the downstream genes, Tcl1, has been analyzed in detail. We show that Oct3/4 binds to the promoter region of Tcl1 and activates its transcription. We also show that Tcl1 is involved in the regulation of proliferation, but not differentiation, in ES cells. These findings suggest that the global expression profiling of gene-manipulated ES cells can help to delineate the structure and dynamics of gene regulatory networks. Keywords: development or differentiation design,time series design ZHBTc4, ZHTc6, and EB5 ES cells were cultured without feeder cells in LIF-supplemented medium as described . For differentiation, ZHTc6 cells were cultured in the absence of Tet, which induced the overexpression of Oct3/4. ZHBTc4 cells were cultured in the presence of Tet, repressing Oct3/4 expression. Trophoblast stem (TS) cells and another ES cell line (R1) were cultured as previously described . Three independent samples were prepared for each time point. Microarray experiments were carried out as described using the NIA Mouse 22K Microarray v1.0.

Project description:Decreasing oocyte competence with maternal aging is a major factor in human infertility. To investigate the age-dependent molecular changes in a mouse model, we compared the expression profiles of metaphase II oocytes collected from 5-6 week old mice with those collected from 40-42 week old mice using the NIA 22K 60-mer oligo microarray.

Project description:We have recently investigated the response of irradiated and bystander fibroblasts to heavy ions in confluent cultures exposed randomly to broadbeam and selectively to precision microbeam that target a predefined fraction of cells with counted number of particle(s), respectively, and found the difference in the time course of apoptosis induction and p53 phosphorylation between irradiated and bystander cells [Hamada MR2008]. In the present investigation, to further scrutinize the underpinnings of their temporally distinct responses, we set out to examine the gene expression changes in irradiated and bystander fibroblasts at a genome-wide level with the microarray analysis under the same experimental condition. We demonstrate that the gene expression profiles of bystander cells are substantially different from those of heavy ion-irradiated cells. Keywords: bystander effect, hour-time course cell number dependency, irradiation-dose response 36 samples ; Broadbeam control A, Broadbeam control B, Broadbeam sham 2 h A, Broadbeam sham 2 h B, Broadbeam sham 6 h A, Broadbeam sham 6 h B, Broadbeam D 2 h A, Broadbeam D 2 h B, Broadbeam D 6 h A, Broadbeam D 6 h B, Broadbeam 0.1D 2 h A, Broadbeam 0.1D 2 h B, Broadbeam 0.1D 6 h A, Broadbeam 0.1D 6 h B, Broadbeam 0.01D 2 h A, Broadbeam 0.01D 2 h B, Broadbeam 0.01D 6 h A, Broadbeam 0.01D 6 h B, Microbeam Control A, Microbeam Control B, Microbeam sham 2 h A, Microbeam sham 2 h B, Microbeam sham 6 h A, Microbeam sham 6 h B, Microbeam 1c 2 h A, Microbeam 1c 2 h B, Microbeam 1c 6 h A, Microbeam 1c 6 h B, Microbeam 5c 2 h A, Microbeam 5c 2 h B, Microbeam 5c 6 h A, Microbeam 5c 6 h B, Microbeam 25c 2 h A, Microbeam 25c 2 h B, Microbeam 25c 6 h A, Microbeam 25c 6 h B.

Project description:E12.5 mouse whole embryos and placentas were pooled within 3 litters and total RNA was extracted. Fluorescently-labeled, linearly-amplified cRNA targets were prepared from the RNA samples and compared on a novel microarray design to validate the system. A "self-versus-self" experimental design was used to assess the false-positive rates in the system. The in situ-synthesized 60-mer oligonucleotide microarray platform contains approximately 22,000 DNA features, and was designed to detect transcripts from the entire NIA cDNA clone collection. Keywords: self vs self design E12.5 mouse whole embryos and placentas were pooled within 3 litters and total RNA was extracted. Fluorescently-labeled, linearly-amplified cRNA targets were prepared from the RNA samples and compared on a novel microarray design to validate the system. A "self-versus-self" experimental design was used to assess the false-positive rates in the system. The in situ-synthesized 60-mer oligonucleotide microarray platform contains approximately 22,000 DNA features, and was designed to detect transcripts from the entire NIA cDNA clone collection.

Project description:E12.5 mouse whole embryos and placentas were pooled within 3 litters and total RNA was extracted. Fluorescently-labeled, linearly-amplified cRNA targets were prepared from the RNA samples at various input levels. A "full-scale" reference was prepared using the standard input level of 6.0 ug total RNA, and one round of amplification was performed with 250 ng and 50 ng total RNA inputs. For 10 ng and 2 ng inputs, two rounds of amplification were used. Targets were compared on a microarray platform designed for this test using a "dye-swapped" experimental design, and sets of significantly differential genes were compared to the full scale reference's list to determine specificity and sensitivity in terms of detection of significant expression differences. Keywords: dye swap design,quality control testing design E12.5 mouse whole embryos and placentas were pooled within 3 litters and total RNA was extracted. Fluorescently-labeled, linearly-amplified cRNA targets were prepared from the RNA samples at various input levels. A "full-scale" reference was prepared using the standard input level of 6.0 ug total RNA, and one round of amplification was performed with 250 ng and 50 ng total RNA inputs. For 10 ng and 2 ng inputs, two rounds of amplification were used. Targets were compared on a microarray platform designed for this test using a "dye-swapped" experimental design, and sets of significantly differential genes were compared to the full scale reference's list to determine specificity and sensitivity in terms of detection of significant expression differences.

Project description:E12.5 mouse whole embryos and placentas were pooled within 3 litters and total RNA was extracted. Fluorescently-labeled, linearly-amplified cRNA targets were prepared from the RNA samples and compared on a novel microarray design to validate the system. A "dye-swapped" experimental design was used to assess the accuracy and precision of the system. The in situ-synthesized 60-mer oligonucleotide microarray platform contains approximately 22,000 DNA features, and was designed to detect transcripts from the entire NIA cDNA clone collection. Keywords: dye swap design,quality control testing design E12.5 mouse whole embryos and placentas were pooled within 3 litters and total RNA was extracted. Fluorescently-labeled, linearly-amplified cRNA targets were prepared from the RNA samples and compared on a novel microarray design to validate the system. A "dye-swapped" experimental design was used to assess the accuracy and precision of the system. The in situ-synthesized 60-mer oligonucleotide microarray platform contains approximately 22,000 DNA features, and was designed to detect transcripts from the entire NIA cDNA clone collection.

Project description:Male embryos are reported to develop faster than female in the preimplantation stage. Therefore, male and female embryos can be considered phenotypically different as early as the preimplantation stage. Employing our sexing system of enhanced green fluorescent protein (EGFP) tagging X chromosomes, we compared the global gene expression pattern of male and female embryos at the blastocyst stage using DNA microarray. Experiment Overall Design: samples were collected from three independent preparations and the experiments were triplicated. Scanned microarray results were processed with Feature Extraction software (ver. 7.5, Agilent). 　The hybridization experiments were duplicated in a reciprocal labeling manner to reduce dye integration bias, and total of six hybridizations were carried out for the entire analysis.　 Combining plural array results and statistical analyses were carried out by Luminator software (Rosetta).

Project description:The absence of a Ca(2+) signal during mouse egg activation can affect parthenogenetic preimplantation development, gene expression patterns, and blastocyst quality. Gene expression pattern of parthenogenetic mouse embryos by cycloheximide or Sr2+. Keywords: development or differentiation design Gene expression pattern of parthenogenetic mouse embryos by cycloheximide or Sr2+.

Project description:Targeted disruption of the Runx1/ AML1 gene in mice has demonstrated that it is required for the emergence of definitive hematopoietic cells, but that it is not essential for the formation of primitive erythrocytes. These findings led to the conclusion that Runx1 is a stage-specific transcription factor acting only during definitive hematopoiesis. However, the zebrafish and Xenopus homologues of Runx1 have been shown to play roles in primitive hematopoiesis, suggesting that mouse Runx1 might also be involved in the development of primitive lineages. In order to identify differentially expressed genes in runx1-/- primitive erythroid, we carried out microarray analysis. Experiment Overall Design: Total RNA from E10.5 wild type and Runx1â??/â?? yolk sacs was extracted, and gene expression patterns were compared.