To analyze roles of transcription factor Fezf2 in retinal development, knockout mouse of Fezf2 was generated, and gene expression pattern of Fezf2-KO retina and control retina was examined by RNA-seq. Overall design: To analyze roles of transcription factor Fezf2 in retinal development, knockout mouse of Fezf2 was generated, and gene expression pattern of Fezf2-KO retina and control retina was examined by RNA-seq.
Pivotal roles of Fezf2 in differentiation of cone OFF bipolar cells and functional maturation of cone ON bipolar cells in retina.
Specimen part, Subject
View SamplesTo analyze Mueller glia specific gene expression, Hes1-promoter-dEGFP mice was used. dEGFP positive and negative retinal fractions were purified by a cell sorter and subjected to RNA-seq Overall design: Examination of mRNA expression patterns in Hes1-positive (Hes1P) retinal cells and Hes1-negative (Hes1N) retinal cells at 2 developmental timepoints.
Analysis of Müller glia specific genes and their histone modification using Hes1-promoter driven EGFP expressing mouse.
Specimen part, Cell line, Subject
View SamplesAS1 and AS2 encode MYB related protein and AS2-domain containing protein, respectively and may regulate transcription. These genes are involved in the determination of axes of leaves of Arabidopsis thaliana. To know the gene regulation in the leaf development, expression profile among wild-type, as1 and as2 mutants and AS2 overexpression plants were compaired.
Meta-analyses of microarrays of Arabidopsis asymmetric leaves1 (as1), as2 and their modifying mutants reveal a critical role for the ETT pathway in stabilization of adaxial-abaxial patterning and cell division during leaf development.
Specimen part
View SamplesWe performed RNA-Seq on PHF21A-deficient patient-dervied lymphoblasts as well as two unaffected individuals. Overall design: We performed RNA-Seq from patient-derived lymphoblast cells. Libraries were polyA-selected and strand-specific according to the protocol described in PMID: 25607527
Transcriptome Analysis Revealed Impaired cAMP Responsiveness in PHF21A-Deficient Human Cells.
Sex, Specimen part, Disease stage, Subject
View SamplesThe transcription factor c-MYC intron binding protein 1 (MIBP1) binds to various genomic regulatory regions, including intron 1 of c-MYC. This factor is highly expressed in post-mitotic neurons in the fetal brain and may be involved in various biological steps, such as neurological and immunological processes. In this study, we globally characterized the transcriptional targets of MIBP1 and proteins that interact with MIBP1. Microarray hybridization followed by Gene Set Enrichment Analysis revealed that genes involved in the pathways downstream of MYC, NF-B, and TGF- were downregulated when HEK293 cells stably overexpressed MIBP1. In silico transcription factor binding site analysis of the promoter regions of these downregulated genes showed that the NF-B binding site was the most overrepresented. The upregulation of genes known to be in the NF-B pathway after the knockdown of endogenous MIBP1 in HT1080 cells supports the view that MIBP1 is a downregulator of the NF-B pathway. We also confirmed the binding of the MIBP1 to the NF-B site. By immunoprecipitation and mass spectrometry, we detected O-linked -N-acetylglucosamine (O-GlcNAc) transferase (OGT) as a prominent binding partner of MIBP1. Analyses using deletion mutants revealed that a 154-amino acid region of MIBP1 was necessary for its OGT binding and O-GlcNAcylation. A luciferase reporter assay showed that NF-B-responsive expression was repressed by MIBP1, and stronger repression by MIBP1 lacking the 154-amino acid region was observed. Our results indicate that the primary effect of MIBP1 expression is the downregulation of the NF-B pathway, and that this effect is attenuated by O-GlcNAc signaling.
Genome-wide repression of NF-κB target genes by transcription factor MIBP1 and its modulation by O-linked β-N-acetylglucosamine (O-GlcNAc) transferase.
Cell line
View SamplesThe capacity of the hematopoietic system to promptly respond to peripheral demands relies on adequate pools of progenitors able to transiently proliferate and differentiate in a regulated manner. However, little is known about factors that may restrain progenitor maturation to maintain their reservoirs. In addition to a profound defect in hematopoietic stem cell (HSC) self-renewal, conditional knockout mice for the Pbx1 proto-oncogene have a significant reduction in lineage-restricted progenitors, including common myeloid progenitors (CMPs) and, to a lesser extent, granulocyte-monocyte progenitors (GMPs).
Pbx1 restrains myeloid maturation while preserving lymphoid potential in hematopoietic progenitors.
Age, Specimen part
View SamplesTo understand the molecular mechanism underlying inflammatory reaction in vascular system post exposure to ionizing radiation, we carried out microarray analysis in HUVEC exposed with X-ray
Comprehensive and computational analysis of genes in human umbilical vein endothelial cells responsive to X-irradiation.
Specimen part
View SamplesWild-type cells were cultured at 30 deg and cells were harvested. Total RNAs were purified from 3 populations.
Mapping of long-range associations throughout the fission yeast genome reveals global genome organization linked to transcriptional regulation.
No sample metadata fields
View SamplesMetazoan development depends on accurate execution of differentiation programs that allow pluripotent stem cells to adopt specific fates. Differentiation is brought about by global changes to chromatin architecture and transcriptional networks, yet whether other regulatory events support cell fate determination is less well understood. Using a human embryonic stem cell model, we identified the vertebrate-specific ubiquitin ligase Cul3KBTBD8 as an essential regulator of neural crest cell formation. Cul3KBTBD8 monoubiquitylates NOLC1 and its paralog TCOF1, whose mutation underlies the developmental disease Treacher Collins Syndrome that is characterized by a loss of cranial neural crest cells. Ubiquitylation of NOLC1 and TCOF1 drives formation of a platform that connects RNA polymerase I with ribosome modification enzymes, thereby altering the translational program of differentiating cells to support the generation of neural crest cells. We conclude that the dynamic regulation of ribosome function is an important feature of cell fate determination.
Cell-fate determination by ubiquitin-dependent regulation of translation.
Cell line
View SamplesPlants possess highly sensitive mechanisms that monitor environmental stress levels for a dose-dependent fine-tuning of their growth and development. Differences in plant responses to severe and mild abiotic stresses have been recognized. Although many studies have revealed that glutathione can contribute to plant tolerance to various environmental stresses, little is known about the relationship between glutathione and mild abiotic stress, especially the effect of stress-induced altered glutathione levels on the metabolism. Here, we applied a systems biology approach to identify key pathways involved in the gene-to-metabolite networks perturbed by low glutathione content under mild abiotic stress in Arabidopsis thaliana. We used glutathione synthesis mutants (cad2-1 and pad2-1) and plants overexpressing the gene encoding gamma-glutamylcysteine synthetase, the first enzyme of the glutathione biosynthetic pathway. The plants were exposed to two mild stress conditionsoxidative stress elicited by methyl viologen (MV) and stress induced by the limited availability of phosphate. We observed that the mutants and transgenic plants showed similar shoot growth as that of the wild-type plants under mild abiotic stress. We then selected the synthesis mutants and performed multi-platform metabolomics and microarray experiments to evaluate the possible effects on the overall metabolome and the transcriptome. To understand the metabolic responses observed under mild abiotic stress, we conducted gene expression profiling by Affymetrix ATH1 GeneChip. pad2-1 and the wild type Col-0 samples were harvested at 18 day-old after germination under two different stresses, MV treatment and limited phosphorus conditions.
Effects of Combined Low Glutathione with Mild Oxidative and Low Phosphorus Stress on the Metabolism of <i>Arabidopsis thaliana</i>.
Specimen part, Treatment
View Samples