Project description:This SuperSeries is composed of the following subset Series: GSE29152: Lymph node stromal cells: Control siRNA treated vs. Eif4g3 siRNA treated GSE29153: Differential gene expression in the Pancreatic lymph node of Deaf1 knockout mice vs. wild type littermate controls Refer to individual Series

Project description:Gene expression in the the pancreatic lymph node of 4, 12, and 30 week old Deaf1-knockout (KO) mice compared to BALB/c littermate controls. Gene expression was measured in the pancreatic lymph nodes of 4 wk old Deaf1 KO mice (2 replicates), 12 wk old Deaf1-KO mice (3 replicates), and 30 wk old Deaf1-KO mice (3 replicates).

Project description:Gene expression in the the pancreatic lymph node of 4, 12, and 30 week old Deaf1-knockout (KO) mice compared to BALB/c littermate controls.

Project description:A microarray study performed in the pancreatic lymph nodes of Deaf1 knock-out and BALB/c control mice to identify genes that are regulated by the transcriptional regulator Deaf1. These experiments constitute a portion of the study described below: Abstract: Type 1diabetes (T1D) can result from a breakdown in peripheral tolerance which is controlled by peripheral tissue antigen (PTA) expression in lymph nodes. Here, we identified a transcriptional regulator, deformed epidermal autoregulatory factor 1 (Deaf1), which regulates the expression of various PTAs in the pancreatic lymph node (PLN). We found, by microarray, that Deaf1 controls the expression of ~600 genes in the PLN. In the non-obese diabetic (NOD) mouse model of T1D, we identified a wild-type form of Deaf1 (DF1) and a truncated alternatively spliced variant (DF1-VAR1) that hetero-dimerizes with and decreases the transcriptional activity of DF1. The expression of DF1 correlates with the expression of various pancreatic PTAs such as insulin, and during the onset of destructive insulitis in NOD mice, DF1 expression is downregulated, while the DF1-VAR1 expression is upregulated in the PLN. A reduction in DF1-controlled PTA expression in the PLN, leading to decreased peripheral tolerance, could underlie the pathogenesis of NOD disease.

Project description:A microarray study performed in the pancreatic lymph nodes of Deaf1 knock-out and BALB/c control mice to identify genes that are regulated by the transcriptional regulator Deaf1. These experiments constitute a portion of the study described below: Abstract: Type 1diabetes (T1D) can result from a breakdown in peripheral tolerance which is controlled by peripheral tissue antigen (PTA) expression in lymph nodes. Here, we identified a transcriptional regulator, deformed epidermal autoregulatory factor 1 (Deaf1), which regulates the expression of various PTAs in the pancreatic lymph node (PLN). We found, by microarray, that Deaf1 controls the expression of ~600 genes in the PLN. In the non-obese diabetic (NOD) mouse model of T1D, we identified a wild-type form of Deaf1 (DF1) and a truncated alternatively spliced variant (DF1-VAR1) that hetero-dimerizes with and decreases the transcriptional activity of DF1. The expression of DF1 correlates with the expression of various pancreatic PTAs such as insulin, and during the onset of destructive insulitis in NOD mice, DF1 expression is downregulated, while the DF1-VAR1 expression is upregulated in the PLN. A reduction in DF1-controlled PTA expression in the PLN, leading to decreased peripheral tolerance, could underlie the pathogenesis of NOD disease. Deaf1-KO mice (4 wk old) and age-matched BALB/c control mice were sacrificed, and the PLN were removed and immediately homogenized in Trizol Reagent. RNA was extracted in Trizol and then purified using the RNeasy kit (Qiagen). RNA quality was assessed using the Agilent RNA 6000 Nano Reagents, RNA Nano chips, and the Agilent 2100 bioanalyzer (Agilent Technologies), according to manufacturer’s instructions. Control and Deaf1-KO mouse RNA was amplified, labeled with Cy3 and Cy5, respectively, and combined with spike A and spike B mix, respectively, using the Agilent low RNA input fluorescence linear amplification kit (Agilent Technologies). The amplified cRNA was purified using the RNeasy kit (Qiagen), and specific activity was determined with the NanoDrop 1000 spectrophotometer (Thermo Scientific). Samples were prepared with the gene expression hybridization kit (Agilent Technologies) and two color microarrays were performed using the whole mouse genome (4x44K) Oligo microarray kit, according to manufacturer’s instructions. Microarray chips were washed and scanned using the DNA microarray scanner (Agilent Technologies). Data was processed with Feature Extraction Software (Agilent Technologies), and analyzed using GeneSpring GX 7.3 Software (Agilent Technologies). This submission shows the data obtained from two individual Deaf1 knockout mice measured against a pool of 4 BALB/c control mice.

Project description:Gene expression in the pancreatic lymph node of Deaf1 knock out mice vs. BALB/c controls

Project description:Role of Eif4g3 and Deaf1 in Lymph node

Project description:Transcriptional profiling of mouse E16 epidermis deficient of Sox4, Sox11, or both as compared to gender matched wild type littermate controls. Goal was to identify the genes differentially expresssed in the conditional knockout epidermis vs the wild-type control epidermis.

Project description:Purpose: The objective was to identify genes regulted by RANK signalling in lymph node lymphatic endothelial cells Method: Lymphatic endothelial cells were FACS sorted from peripheral lymph nodes of mice deficient for stromal RANKL (Ccl19 Cre Rankl flox/flox) versus littermate controls (Rankl flox/flox) and processed for bulk RNA sequencing Results: Upregulated and downregulated genes were identified

Project description:Survey of gene expression in 9 types of C57/Bl mouse wild type tissue. RNA was extracted from homogenized whole organs/tissues and include brain, spleen, liver, thymus, kidney, lung, testes, bone marrow, and lymph node. 8 week old male littermate C57/Bl mice