Project description:ICR mice Targeted loci

Project description:ICR mice Targeted loci

Project description:Mice with deficient expression of RASSF9 exhibit intriguing phenotypes of skin-related pathology, including abnormal thickening of the epidermis, dysregulated proliferation of keratinocytes, and alopecia. To delineate the underlying mechanism, we profiled gene expression in keratinocytes of RASSF9-mutant mice to identify targets whose expressions were affected by RASSF9 gene deletion. Primary keratinocytes from neonatal ICR mice of wildtype control (WT) or homozygous RASSF9 deletion (RASSF9-/-) were harvested for RNA extraction and hybridization on Affymetrix microarrays. For WT, a single microarray hybridization was performed. For RASSF9-/-, one hybridization was performed for each of two independent samples.

Project description:Background: In mammals, tight regulation of cytosine methylation is required for embryonic development and cellular differentiation. The trans-acting DNA methyltransferases that catalyze this modification have been identified and characterized; however, these proteins lack sequence specificity, leaving the mechanism of targeting unknown. A cis acting regulator within the Rasgrf1 imprinting control region (ICR) is necessary for establishment and maintenance of imprinted methylation at the locus. Here we investigate whether 3kb of sequence from the Rasgrf1 ICR is sufficient to direct appropriate imprinted methylation and target-gene expression patterns when ectopically inserted at the Wnt1 locus. Results: The Rasgrf1 ICR at Wnt1 lacked somatic methylation when maternally transmitted, and was fully methylated upon paternal transmission, consistent with its behavior at the Rasgrf1 locus. It was unmethylated in the female germline and was enriched for methylation in the male germline, though not to the levels seen at the endogenous Rasgrf1 allele. Wnt1 expression was not imprinted by our construct, likely due to additional sequences being required for this function. Conclusion: We have identified sequences that are sufficient for partial establishment and full maintenance of the imprinted DNA methylation patterns. Because full somatic methylation can occur without full gametic methylation, we infer that somatic methylation of the Rasgrf1 ICR is not simply a consequence of maintained gametic methylation.

Project description:Purpose: To investigaet whether an inflammatory immune response at the Ileum can contribute to development and severity of diarrhoea in Merino sheep that are prone and not prone to develop diarrhoea. Methods:Transcriptomes in the Ileum (third part of small intestine) of Merino sheep were analyzed using RNASeq. Functional enrichment of DEGs using GO terms in biological processes and KEGG pathways were studied. PPI (protein-protein interaction) network and sub-network were studied using clusterONE plugin in Cytoscape. Result and conclusion: Although Ileum in not a primary site of helminth (species under study in our experiment), the results indicated that an inflammatory immune response can contribute to development and severity of diarrhoea. The low-diarrhoea animals did not show any signs of immune/inflammatory response. The genes with important roles in the responses to helminth infection could be targeted in breeding programs to prevent diarrhoea.

Project description:ICR-derived glomerulonephritis (ICGN) mice is a novel inbred strain of mice with a hereditary nephrotic syndrome. Deletion mutation of tensin 2 (Tns2), a focal adhesion molecule, has been suggested to be responsible for nephrotic syndrome in ICGN mice, however, existence of other associative factors has been suggested. To identify additional associative factors and to better understand onset mechanism of nephrotic syndrome in ICGN mice, comprehensive gene expression analysis using DNA microarray was conducted. Immune-related pathways were markedly altered in ICGN mice kidney as compared with ICR mice. Furthermore, gene expression level of complement component 1, s subcomponent (C1s), whose human homologue has been reported to associate with lupus nephritis, was markedly low in ICGN mice kidney. RNA from renal cortex of 4- and 8-week-old ICGN and ICR mice was extracted and processed for hybridization on Affymetrix microarrays (N=3).

Project description:Purpose:To explore the underlying biological mechanisms relating to development and control of diarrhoea, we compared sheep that were prone to develop diarrhoea with sheep that were not prone. Methods:Transcriptomes in the tissues of Merino sheep where the parasites were located were analyzed using RNASeq. Functional enrichment of DEGs using GO terms in biological processes and KEGG pathways were studied. PPI (protein-protein interaction) network and sub-network were studied using clusterONE plugin in Cytoscape. Result and conclusion: Our results indicate that suppression of ‘immune response’, ‘antigen processing and presentation’, and a list of biological functional terms related to ‘suppression in immune tolerance and activation of repair processes associated with tissue damage, including ‘extracellular matrix organization’, ‘collagen fibril organization’, ‘tissue morphogenesis’, ‘circulatory system development’, ‘morphogenesis of an epithelium’, and ‘focal adhesion’ were associated with high-diarrhoea phenotype. The genes with important roles in the responses to helminth infection could be targeted in breeding programs to prevent diarrhoea.

Project description:gut microbiome of ICR mice Raw sequence reads

Project description:ICR-derived glomerulonephritis (ICGN) mice is a novel inbred strain of mice with a hereditary nephrotic syndrome. Deletion mutation of tensin 2 (Tns2), a focal adhesion molecule, has been suggested to be responsible for nephrotic syndrome in ICGN mice, however, existence of other associative factors has been suggested. To identify additional associative factors and to better understand onset mechanism of nephrotic syndrome in ICGN mice, comprehensive gene expression analysis using DNA microarray was conducted. Immune-related pathways were markedly altered in ICGN mice kidney as compared with ICR mice. Furthermore, gene expression level of complement component 1, s subcomponent (C1s), whose human homologue has been reported to associate with lupus nephritis, was markedly low in ICGN mice kidney.

Project description:Lack of cytoplasmic beta-actin gene (Actb) leads to early embryonic lethality in mice, however targeted editing of Actb coding sequence by introducing five point mutations to encode cytoplasmic gamma-actin protein does not affect mouse viability. These mice with beta to gamma actin replacement (Actbc-g mice) develop normally and show no detectable phenotypes at young age, despite complete lack of beta-actin protein. Here we investigated the effect of the replacement of beta-actin with gamma-actin in the retina.