Project description:The goal of this project is to explore lncRNA55666 regulation goat mammary gland lipid metabolism. We tried to search the mechanism of lncRNA55666 regulation lipid metabolism. RNA-seq of goat mamamary gland cells samples from different groups: 5NC, lncRNA55666 overexpression, 3NC, lncRNA55666 knockdown. The goat mammary gland cells were cultured in 3D condition. The cell were transfected with virus with lncRNA55666 gene (overexpression), or inhibition of lncRNA expression (lncRNA gene knockdown).
Project description:The goat of this project is to explore cirRNA28250 regulation goat mammary gland lipid metabolism. We tried to search the mechanism of cirRNA28250 regulation lipid metabolism. RNA-seq of goat mamamary gland cells samples from different groups: 5NC, cirRNA28250 overexpression, 3NC, cirRNA28250 knockdown. The goat mammary gland cells were cultured in 3D condition. The cell were transfected with virus with cirRNA28250 gene (overexpression), or inhibition of cirRNA28250 expression ( cirRNA28250 gene knockdown).
Project description:The goat of this project is to explore lncRNA55666 efffect on small RNA to regulation goat mammary gland lipid metabolism. We tried to search the mechanism of lncRNA55666 regulation lipid metabolism through miRNA. small RNA seqencing of goat mamamary gland cells samples from different groups: 5NC, lncRNA55666 overexpression, 3NC, lncRNA55666 knockdown. The goat mammary gland cells were cultured in 3D condition. The cell were transfected with virus with lncRNA55666 gene (overexpression), or inhibition of lncRNA expression (lncRNA gene knockdown).
Project description:The goat of this project is to explore cirRNA28250 efffect on small RNA to regulation goat mammary gland lipid metabolism. We tried to search the mechanism of cirRNA28250 regulation lipid metabolism through miRNA. small RNA seqencing of goat mamamary gland cells samples from different groups: 5NC, cirRNA28250 overexpression, 3NC,cirRNA28250 knockdown. The goat mammary gland cells were cultured in 3D condition. The cell were transfected with virus with cirRNA28250 gene (overexpression), or inhibition of cirRNA28250A expression (cirRNA28250 gene knockdown).
Project description:Different doses of glucose were inused into dairy goat mammary gland. The mammary gland tissues were biopsied to analyze the changes of transcriptome responding to glucose infusion.
Project description:In this study, two small RNA libraries were constructed using dry period and peak lactation dairy goat mammary gland tissues and sequenced by the Illumina Solexa high-throughput sequencing system. A total of 346 conserved and 95 novel miRNAs were identified in the dairy goat. The expression of miRNAs was confirmed by qRT-PCR in nine tissues and the mammary gland during development cycles. In addition, several candidate miRNAs that may be involved in mammary gland development and lactation were found by the comparison of miRNA expression profiles among different tissue and developmental stages of the mammary gland. This study provides the identification and profile of miRNAs related to the biology of the mammary gland in the dairy goat. The identification of these miRNAs could contribute to understanding the molecular mechanisms of lactation physiology and the development of the mammary gland in the dairy goat.
Project description:Development of mammary secretory epithelium and its functional differentiation occur during pregnancy under combined actions of ovarian steroids, pituitary hormones and growth factors. If the effect of these molecules is relatively well known, effect of differentiation factors expressed locally is not enough characterized. To understand local regulation of mammary tissue development and differentiation we realized transcriptional analysis on 5 physiological stages (4 during pregnancy and 1 during lactation). An appropriate experimental design was drawn to follow gene expression profiles during differentiation of mammary tissue. Results showed that at mid-pregnancy, mammary tissue was enough defferentiated into secretory epithelium to express milk protein genes and genes of the immune response system actors. But the secretoty activation of mammary epithelium was done only after parturition and wwas characterized by the expression of lipidogenesis genes. Keywords: time course, mammary gland differentiation, goat, pregnancy 18 samples, loop design
Project description:Development of mammary secretory epithelium and its functional differentiation occur during pregnancy under combined actions of ovarian steroids, pituitary hormones and growth factors. If the effect of these molecules is relatively well known, effect of differentiation factors expressed locally is not enough characterized. To understand local regulation of mammary tissue development and differentiation we realized transcriptional analysis on 5 physiological stages (4 during pregnancy and 1 during lactation). An appropriate experimental design was drawn to follow gene expression profiles during differentiation of mammary tissue. Results showed that at mid-pregnancy, mammary tissue was enough defferentiated into secretory epithelium to express milk protein genes and genes of the immune response system actors. But the secretoty activation of mammary epithelium was done only after parturition and wwas characterized by the expression of lipidogenesis genes. Keywords: time course, mammary gland differentiation, goat, pregnancy