Project description:The germ cell lineage ensures the creation of new individuals perpetuating the genetic information across generations. Primordial germ cells (PGCs) are pioneers of gametes and exist transiently during development until they differentiate into oogonia in females, or spermatogonia in males. Little is known about the molecular characteristics of PGCs in cattle. By performing single-cell RNA-sequencing of bovine fetal gonads we evaluated the molecular signatures of bovine germ cells and their niche at 50 days of development. Our results indicate that PGCs and somatic cells were in very early stages of development, and that bovine and human germ cells share expression of transcriptional regulators of germline specification, and several genes coding for membrane-bound proteins. Additionally, the expression of members of Notch, Nodal/Activin, and BMP signaling cascades in the bovine fetal ovary, suggests that these pathways are involved in the interaction between germ cells and their niche. Results of this study provide insights into the mechanisms involved in the development of bovine PGCs and put in evidence similarities between the bovine and human germline.

Project description:We investigated the effects of one carbon metabolites supplementation on early embryonic development. To this end, the Bovine Embryonic Tracheal Fibroblast cell lines (EBTr; NBL-4; ATCC CCL-44) were cultured under different levels of glucose and OCM (folic acid, choline chloride, vitamin B12, and L-methionine).

Project description:RNA-sequencing of bovine fetal ovaries throughout gestation

Project description:RRBS DNA methylation data of bovine embryonic fibroblast cells

Project description:LV fibroblasts were isolated from control (day 0), and infarcted regions at day 1, day 3, and day 7 after myocardial infarction (MI). Cells were isolated in DMEM in 10% fetal bovine serum and were seeded into 6-well plates and were allowed to grow to 80% confluence in DMEM supplemented with 10% fetal bovine serum (FBS). Cells were serum starved (DMEM + 0.1% FBS) for 18 h and then media was changed and secretome was collected after 24 h. The sample sizes are n=3 biological replicates for each time point.

Project description:We generated fibroblast lines overexpressing beta-globin constructs under a doxycycline-inducible promoter. These constructs contain the beta-globin coding sequence followed by either a control 3'UTR (HBB) or the Pkp4 3'UTR. The Pkp4 3'UTR carries a protrusion-targeting element and is expected to compete with localization of endogenous protrusion-localized mRNAs. We used a fractionation scheme to isolate protrusions and cell bodies from HBB and Pkp4 UTR-expressing fibroblasts, which were induced to extend protrusions in response to addition of lysophosphatidic acid (LPA). 4 replicate protrusion and cell body samples for each cell type were analyzed by RNA-Seq. To identify RNAs enriched in protrusions, a protrusion/cell body ratio was calculated. We find that ca. 4.5% of detected RNAs were enriched in protrusions of control HBB cells. Overexpression of the Pkp4 UTR reduced the protrusion enrichement of a subset of these RNAs, while the degree of localization of the remaining RNAs was not significantly affected.

Project description:Human adipose stem cells (ASCs) have been shown, in pre-clinical studies, to have therapeutic applicability in diverse fields, but a standard expansion method for clinical applications remains yet to be established. Isolated ASCs are typically expanded in medium containing fetal bovine serum (FBS). However, sera and other animal-derived culture reagents stage numerous safety issues in clinical therapy, including possible infections and severe immune reactions. By expanding the ASCs in medium containing human serum (HS), the problem can be eliminated. To define how allogeneic HS performs in ASC expansion compared to FBS, we used microarrays to explore differences in gene expression between human adipose stem cells expanded in allogeneic human serum and fetal bovine serum.

Project description:We performed single cell RNA-sequencing (scRNA-Seq) of testes from bovine fetuses derived from either CRISPR/Cas9 NANOS3 knockout (KO; NANOS3 -/-) or wildtype control (NANOS3 +/+) embryos. The scRNA-Seq analysis showed a complete loss of primordial germ cells (PGCs) and gonocytes in NANOS3 KO fetal testes, while maintaining the development of somatic support cells.

Project description:Bovine fetal amniotic, allantoic, placental, and intestinal microbiota Targeted loci environmental

Project description:Human adipose stem cells (ASCs) have been shown, in pre-clinical studies, to have therapeutic applicability in diverse fields, but a standard expansion method for clinical applications remains yet to be established. Isolated ASCs are typically expanded in medium containing fetal bovine serum (FBS). However, sera and other animal-derived culture reagents stage numerous safety issues in clinical therapy, including possible infections and severe immune reactions. By expanding the ASCs in medium containing human serum (HS), the problem can be eliminated. To define how allogeneic HS performs in ASC expansion compared to FBS, we used microarrays to explore differences in gene expression between human adipose stem cells expanded in allogeneic human serum and fetal bovine serum. Adipose stem cells from 5 human donors were cultured in two media containing either 1) 10 % fetal bovine serum or 2) 15 % allogeneic human serum, and collected for RNA extraction and hybridization to 10 Affymetrix arrays. This experiment represents a paired design since cells of each donor were cultured in both conditions.