Project description:Standardized muscular biopsies of the dorsal compartment of the gluteus medius muscle were performed in 7 horses suffering from equine polysaccharide storage myopathy (PSSM) and 6 sound Norman Cob horses . Gene expression analysis was performed using an equine oligonucleotide microarray which included 384 equine gene probes of the nuclear genome and all the mitochondrial genes.
Project description:38 horses from 16 diverse breeds and Przewalski's Horse were used to generate a composite CNV map of equine genome. This map was used to detect novel copy number variation in six horses affected with disorder of sexual development (DSD).
Project description:Standardized muscular biopsies of the dorsal compartment of the gluteus medius muscle were performed in 7 horses suffering from equine polysaccharide storage myopathy (PSSM) and 6 sound Norman Cob horses . Gene expression analysis was performed using an equine oligonucleotide microarray which included 384 equine gene probes of the nuclear genome and all the mitochondrial genes. All the samples of PSSM muscles were hybridized against the reference control muscles. This reference was made by pooling together all the mRNA extracted after in vitro transcription from the 6 control muscles of the sound horses. Briefly, the hybridization protocol was adapted from Le Brigand et al. (2006). An open-access long oligonucleotide microarray resource for analysis of the human and mouse transcriptomes. Nucleic Acids Res. 2006 Jul 19;34(12).
Project description:aCGH performed to identify copy number variants in Quarter Horses and perform casec-control GWAS Two-condition experiment, All samples were compared to a single Quarter Horse reference to identify copy number variants to be used in the CNV GWAS
Project description:The aim of the project was to identify sites undergoing changes in methylation level in cancer cells of equine sarcoid. The comparative analysis of DNA methylation patterns of the genome fraction rich in CpG dinucleotides was investigated using Reduced Representation Bisulfite Sequencing (RRBS) technique. In this study, for the first time we report the genome-wide DNA methylation profile of skin tumour in horses and describe differentially methylated genomic regions with respect to healthy skin.
Project description:To investigate the transcriptome level changes in gene expression in equine mesenchymal stem cells following treatment with TGF-b2, we used RNA-sequencing to compare gene expression between mesenchymal stem cells from the same donor horses cultured in standard media and media containing TGF-b2.
Project description:An equine immuno-specific oligo microarray platform was designed to evidence differences in gene expression profiles in BAL fluid samples from eight (8) RAO-affected horses, ten (10) IAD-affected horses and seven (7) control animals. An unpaired t test was performed using the software Significant Analysis of Microarrays (SAM). 1763 and 379 genes were found differentially expressed between RAO and IAD horses respectively vs. controls.
Project description:Stress fractures are microcracks in bone caused by repetitive loading and these microcracks can increase the risk of developing catastrophic fractures. Early detection of stress fractures can be difficult due to the necessity of accurate clinical detection. MicroRNAs could be used as potential diagnostic and prognostic biomarkers due to their size, abundance, tissue specificity and stability in body fluids. Global profiling of circulating plasma small RNA-sequencing between lame horses (stress fractures and non-stress fractures) and non-lame control horses and the effects and role of selected stress fracture-related miRNAs on equine bone marrow derived mesenchymal stem cells (BMMSCs) were investigated. The miRNA profiles of stress fracture cases and non-lame stress fracture cases were similar. No miRNA was identified for potential usage as a biomarker for differentiating stress fracture from lame cases. However, the miRNA profiles of lame cases and non-lame control horses were significantly different. RNA-sequencing showed three miRNAs (eca-miR-486-5p, eca-miR-26a and eca-miR-23a) were most significantly differentially expressed (p value <0.05) between lame cases and non-lame controls, which was validated by qPCR. Of these, eca-miR-486-5p demonstrated the most abundant and significant increased miRNA in the lame cases compared to non-lame control cases. Cell transfection experiments using the miR-486-5p mimic treatment in equine BMMSCs showed upregulation of the osteogenic transcription factor, Runt-related transcription factor 2 (RUNX2) and insulin-like growth factor type 1 (IGF1). A significant decrease of miR-133a in the miR-486-5p mimic treated cells was also demonstrated. Since RUNX2 is the known target of miR-133a, miR 486-5p together with miR-133a would suggest the biological importance of bone turnover and osteogenesis in equine BMMSCs, but further investigation of role of miR-486-5p and miR-133a in equine bone biology is warranted.
