Project description:Conventional Superstimulation (group 1) vs. Long Superstimulation (group 3) A genome-wide bovine oligo-microarray was used to compare the gene expression of granulosa cells collected from ovarian follicles after differing durations of the growing phase induced by exogenous FSH treatment. Cows were given a conventional (4-day) or long (7-day) superstimulatory treatment (25mg FSH im at 12-h intervals; n=6 per group), followed by prostaglandin treatment with last FSH and LH treatment 24 hr later. Granulosa cells were harvested 24 h after LH treatment. The expression of 416 genes was down-regulated and 615 genes was up-regulated in the long FSH group compared to the conventional FSH group. Quantification by RT-PCR of 7 genes (NTS, PTGS2, PTX3, RGS2, INHBA, CCND2 and LRP8) followed the same trend as in microarrays. Compared to the conventional group, the long FSH group responded to exogenous LH with down-regulation of mRNA for cyclinD2, lipoprotein receptorP8, CYP51A1, CYP19A1, CJA1, INHBA, SRPINE1, and up-regulation of Vannin, POSTN, GTPAse, Cysteine. Markers of fertility and follicle maturity were up-regulated in the long FSH group. We conclude that a prolonged FSH-induced growing phase is associated with transcriptomic characteristics of greater follicular maturity and may therefore be more appropriate for optimizing the superovulatory response and developmental competence of oocytes in cattle. straight comparison of Short Superstimulation group (the reference; group 1) versus a Long Superstimulation protocol ( the treatment; group 3) using 3 different animals (biological replicates) in each group and performed dye swap. For example on array 1: group 1 cow 1 versus group 3 cow 1 (cy3 vs cy5) and on array 4 is the dye swap group 3 cow 1 versus group 1 cow 1 (cy3 vs cy5).

Project description:Conventional Superstimulation (group 1) vs. Long Superstimulation (group 3) A genome-wide bovine oligo-microarray was used to compare the gene expression of granulosa cells collected from ovarian follicles after differing durations of the growing phase induced by exogenous FSH treatment. Cows were given a conventional (4-day) or long (7-day) superstimulatory treatment (25mg FSH im at 12-h intervals; n=6 per group), followed by prostaglandin treatment with last FSH and LH treatment 24 hr later. Granulosa cells were harvested 24 h after LH treatment. The expression of 416 genes was down-regulated and 615 genes was up-regulated in the long FSH group compared to the conventional FSH group. Quantification by RT-PCR of 7 genes (NTS, PTGS2, PTX3, RGS2, INHBA, CCND2 and LRP8) followed the same trend as in microarrays. Compared to the conventional group, the long FSH group responded to exogenous LH with down-regulation of mRNA for cyclinD2, lipoprotein receptorP8, CYP51A1, CYP19A1, CJA1, INHBA, SRPINE1, and up-regulation of Vannin, POSTN, GTPAse, Cysteine. Markers of fertility and follicle maturity were up-regulated in the long FSH group. We conclude that a prolonged FSH-induced growing phase is associated with transcriptomic characteristics of greater follicular maturity and may therefore be more appropriate for optimizing the superovulatory response and developmental competence of oocytes in cattle.

Project description:Effect of FSH on granulosa cell expression in cow.

Project description:Bovine in-vitro blastocysts vs granulosa cells

Project description:Transcriptome analysis of FSH response in bovine cumulus cells

Project description:The Gayal (Bos frontalis) is a rare semi-domesticated cattle in China. Gayal has typical beef body shape and good meat production performance. Compared with other cattle species, it has the characteristics of tender meat and extremely low fat content. To explore the underlying mechanism responsible for the differences of meat quality between different breeds, the longissimus dorsi muscle (LM) from Gayal and Banna cattle (Bos taurus) were investigated using transcriptome analysis. The gene expression profiling identified 638 differentially expressed genes (DEGs) between LM muscles from Gayal and Banna cattle. Gene Ontology (GO) enrichment of biological functions and Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis showed that the gene products were mainly involved in the PPAR signaling pathway, lipid metabolism and amino acid metabolism pathway. Protein-protein interaction（PPI） network analysis showed APOB, CYP7A1, THBS2, ITGAV, IGFBP1 and IGF2R may have great impact on meat quality characteristics of Gayal. Moreover, three transcription factors, FOXA2, NEUROG2, and RUNX1, which may affect meat quality by regulating the expression of genes related to muscle growth and development have also been found. In summary, our research reveals the molecular mechanisms that cause Gayal meat quality characteristics. It will contribute to improving meat quality of cattle through molecular breeding.

Project description:Bovine granulosa cells of dominant follicles comparison of plateau vs atretic

Project description:Bovine granulosa cells of dominant follicles comparison of growing vs plateau

Project description:Bovine granulosa cells of dominant follicles comparison of growing vs atretic

Project description:Effect of maternal age on the granulosa cell transcriptome of preovulatory dominant follicle in cattle