Add to ORKGFemale reproductive ageing is associated with oocyte quality decline and increased risk of maternofoetal complications during early embryo implantation and pregnancy. DNA methylation is an important epigenetic mark involved in gene regulation that can be affected by environmental factors, such as age and diet. The aim of this study was to assess oocyte methylome and transcriptome in order to identify age-associated changes that may in part explain the aged-associated decline in female fertility. Single oocytes were collected from young and old female mice. Parallel whole-genome bisulfite sequencing and RNA sequencing analysis was performed in individual cells in both groups. Results showed that DNA methylation is predominantly lost in diffe...
Maintaining appropriate patterns of gene expression in the gametes and during early embryogenesis i...
AbstractAn increase in the incidence of aneuploidy is well documented with increasing maternal age, ...
DNA methylation and histone modification are two of the most characterized epigenetic modifications....
Background In vitro follicle culture (IFC), as applied in the mouse system, allows the growth and m...
This paper investigated the age-related changes in the expression patterns of maintenance methyltran...
Abstract Background: Reproductive biology methods rely on in vitro follicle cultures from mature fo...
BACKGROUND: Reproductive biology methods rely on in vitro follicle cultures from mature follicles ob...
Ageing is a phenomenon related to mammalian female infertility. One cause of ageing-induced infertil...
DNA methylation is the most widely investigated epigeneticmodification associated with the repressio...
Decreasing oocyte competence with maternal aging is a major factor in human infertility. To investig...
The effects of maternal aging on the localization of DNA methyltransferases were evaluated during mo...
Oocyte maturation is a coordinated process that is tightly linked to reproductive potential. A bette...
Epigenetic marking systems confer stability of gene expression during mammalian development. Genome-...
Epigenetic marking systems confer stability of gene expression during mammalian development. Genome-...
Controlled ovarian stimulation is a necessary step in some assisted reproductive procedures allowing...
Maintaining appropriate patterns of gene expression in the gametes and during early embryogenesis i...
AbstractAn increase in the incidence of aneuploidy is well documented with increasing maternal age, ...
DNA methylation and histone modification are two of the most characterized epigenetic modifications....
Background In vitro follicle culture (IFC), as applied in the mouse system, allows the growth and m...
This paper investigated the age-related changes in the expression patterns of maintenance methyltran...
Abstract Background: Reproductive biology methods rely on in vitro follicle cultures from mature fo...
BACKGROUND: Reproductive biology methods rely on in vitro follicle cultures from mature follicles ob...
Ageing is a phenomenon related to mammalian female infertility. One cause of ageing-induced infertil...
DNA methylation is the most widely investigated epigeneticmodification associated with the repressio...
Decreasing oocyte competence with maternal aging is a major factor in human infertility. To investig...
The effects of maternal aging on the localization of DNA methyltransferases were evaluated during mo...
Oocyte maturation is a coordinated process that is tightly linked to reproductive potential. A bette...
Epigenetic marking systems confer stability of gene expression during mammalian development. Genome-...
Epigenetic marking systems confer stability of gene expression during mammalian development. Genome-...
Controlled ovarian stimulation is a necessary step in some assisted reproductive procedures allowing...
Maintaining appropriate patterns of gene expression in the gametes and during early embryogenesis i...
AbstractAn increase in the incidence of aneuploidy is well documented with increasing maternal age, ...
DNA methylation and histone modification are two of the most characterized epigenetic modifications....