DNA methylation of GDF-9 and GHR genes as epigenetic regulator of milk production in Egyptian Zaraibi goat
Copyright policy )DNA methylation of GDF-9 and GHR genes as epigenetic regulator of milk production in Egyptian Zaraibi goat
AbstractBackgroundDNA methylation is an epigenetic mechanism that takes place at gene promoters and a potent epigenetic marker to regulate gene expression.ObjectiveThe study aimed to improve the milk production of Zaraibi goats by addressing the methylation pattern of two milk production-related genes: the growth hormone receptor(GHR)and the growth differentiation factor-9 (GDF-9).Methods54 and 46 samples of low and high milk yield groups, respectively, were collected. Detection of methylation was assessed in two CpG islands in the GDF-9 promoter via methylation-specific primer assay (MSP) and in one CpG island across the GHR promoter using combined bisulfite restriction analysis (COBRA).ResultsA positive correlation between the methylation pattern of GDF-9 and GHR and their expression levels was reported. Breeding season was significantly effective on both peak milk yield (PMY) and total milk yield (TMY), where March reported a higher significant difference in PMY than November. Whereas single birth was highly significant on TMY than multiple births. The 3rd and 4th parities reported the highest significant difference in PMY, while the 4th parity was the most effective one on TMY.ConclusionThese results may help improve the farm animals' milk productive efficiency and develop prospective epigenetic markers to improve milk yield by epigenetic marker-assisted selection (eMAS) in goat breeding programs.
Molecular biology, Epigenetic Modifications and Their Functional Implications, Growth Differentiation Factor 9, Nursing, FOS: Health sciences, Methylation, Gene, Epigenesis, Genetic, Endocrinology, Pregnancy, Biochemistry, Genetics and Molecular Biology, Health Sciences, Genetic Adaptation of Lactase Persistence in Humans, Genetics, Animals, Prospective Studies, Andrology, Molecular Biology, Biology, Bisulfite sequencing, Growth hormone, Growth hormone receptor, Nutrition and Dietetics, DNA methylation, Goats, Life Sciences, Composition and Health Effects of Human Milk, Promoter, DNA Methylation, CpG site, Hormone, Milk, FOS: Biological sciences, Medicine, Female, Egypt, Epigenetics, Gene expression, Research Article
Molecular biology, Epigenetic Modifications and Their Functional Implications, Growth Differentiation Factor 9, Nursing, FOS: Health sciences, Methylation, Gene, Epigenesis, Genetic, Endocrinology, Pregnancy, Biochemistry, Genetics and Molecular Biology, Health Sciences, Genetic Adaptation of Lactase Persistence in Humans, Genetics, Animals, Prospective Studies, Andrology, Molecular Biology, Biology, Bisulfite sequencing, Growth hormone, Growth hormone receptor, Nutrition and Dietetics, DNA methylation, Goats, Life Sciences, Composition and Health Effects of Human Milk, Promoter, DNA Methylation, CpG site, Hormone, Milk, FOS: Biological sciences, Medicine, Female, Egypt, Epigenetics, Gene expression, Research Article
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