Project description:We report the transcriptional changes in mouse alveolar epithelial type 2 cells (AEC2) 7 days following tamoxifen induced expression of a clinical surfactant protein c mutation (C185G). Mouse AEC2 from SP-C wild type and uninduced SP-C C185Gneo mice were used as controls.
Project description:Whole Exome Sequencing of cohorts of Mutant Braf mouse model melanoma DNA and germline DNA. The cohorts are (1) Mutant Braf mouse model melanomas, (2) Mutant Braf mouse model melanomas from UVR exposed mice and (3) Mutant Braf mouse model melanomas from UVR exposed, sunscreen protected mice.
Project description:BRAFV600E mutation is the most frequent molecular event in papillary thyroid carcinoma. The relation of this genetic alteration with the factors od poor prognosis has been reported as well as its influence on PTC gene signature. However human material disables distinction of cancer causes from its effect. We used our transgenic mouse model of papillary thyroid carcinoma induced by the BRAFV600E mutation to select BRAFV600E-specific gene signature
Project description:We report the single cell RNA sequencing of the lung epithelium of mice expressing the SP-C BROCHOS mutation (SP-C C121G) at 3 and 7 days after tamoxifen induced mutation expression. The control sample for this experiment are mice hypomorphic for the SP-C mutation (SP-C C121Gneo). This study allow for the identification of unique lung epithelial cell states that emerge following SP-C mutation expression
Project description:BRAFV600E mutation is the most frequent molecular event in papillary thyroid carcinoma. The relation of this genetic alteration with the factors od poor prognosis has been reported as well as its influence on PTC gene signature. However human material disables distinction of cancer causes from its effect. We used our transgenic mouse model of papillary thyroid carcinoma induced by the BRAFV600E mutation to select BRAFV600E-specific gene signature The transgenic mouse model was obtained by the microinjection of the transgene, composed of the human BRAF cDNA with V600E mutation under the control of bovine thyroglobulin, into the ferilized mice egg cells. Three lines were derived and mice after 4-24 months were sacrificed and histopathological evaluation of thyroids was carried out. In order to find BRAFV600E-specific gene signature microarray analysis was performed. The analysis invloved 38 mice thyroid samples: 10 mice papillary thyroid carcinomas, 10 borderline lesions (all being BRAF-positive), 10 apparently asymptomatic thyroids (5 BRAF-positive and 5 BRAF-negative) and 8 benign hyperplastic lesions (4 BRAF-positive and 4 BRAF-negative). Multofactoral analyses were performed in order to define some additional factors that could have impact on the gene expression profile.
Project description:We previously identified a recurrent mutation L424H in the transcription factor GTF2I in thymic epithelial tumors. The precise role of the GTF2I mutation in these tumors is unclear. Here we describe the generation and characterization of a mouse model in which the Gtf2i L424H mutation was conditionally knocked-in in the Foxn1+ thymic epithelial cells. The Gtf2i mutation impairs development of thymic medulla and maturation of medullary thymic epithelial cells in the young mice and causes tumor formation in the thymus of the aged KI mice. To characterize the molecular features of murine thymomas, we performed digital spatial profiling with GeoMx moue whole transcriptome atlas assay with FFPE thymic tissues of 4 KI and 4 control mice.
Project description:Using Affymetrix GeneChips, we analyzed expression profiles of SP cells from EOM and TA. 348 differentially expressed transcripts defined the EOM-SP transcriptome: 229 upregulated in EOM-SP and 119 in TA-SP. Experiment Overall Design: Six independently separated EOM and six TA SP cell preparations were used for microarray analysis using the Affymetrix® Mouse 430 ver 2.0 GeneChip arrays.