| Sperm form and function: what do we know about the role of sexual selection? |
18 |
| MicroRNAs: crucial regulators of placental development |
16 |
| The cytoskeleton in spermatogenesis |
16 |
| Female fertility preservation: past, present and future |
15 |
| 40 years of bovine IVF in the new genomic selection context |
15 |
| Mitochondria in early development: linking the microenvironment, metabolism and the epigenome |
15 |
| Update on mammalian sperm capacitation: how much does the horse differ from other species? |
15 |
| Obesity induces ovarian inflammation and reduces oocyte quality |
14 |
| Long-term exposure to very low doses of bisphenol S affects female reproduction |
14 |
| The contribution of epididymosomes to the sperm small RNA profile |
13 |
| Ejaculate-mediated paternal effects: evidence, mechanisms and evolutionary implications |
13 |
| MicroRNAs: tiny molecules with a significant role in mammalian follicular and oocyte development |
12 |
| Cell-free fetal DNA and spontaneous preterm birth |
12 |
| Chromosomal analysis in IVF: just how useful is it? |
12 |
| Epigenetic reprogramming during spermatogenesis and male factor infertility |
12 |
| Ram seminal plasma and its functional proteomic assessment |
11 |
| Estradiol promotes EMT in endometriosis via MALAT1/miR200s sponge function |
11 |
| Causes and consequences of chromosome segregation error in preimplantation embryos |
11 |
| New insights of the role of beta-NGF in the ovulation mechanism of induced ovulating species |
10 |
| Effects of micronutrients on placental function: evidence from clinical studies to animal models |
10 |
| Blastocyst-induced changes in the bovine endometrial transcriptome |
10 |
| Melatonin attenuates postovulatory oocyte dysfunction by regulating SIRT1 expression |
10 |
| Autophagy is activated in the ovarian tissue of polycystic ovary syndrome |
10 |
| Estrogen is an important mediator of mast cell activation in ovarian endometriomas |
9 |
| The impact of epididymal proteins on sperm function |
9 |
| Radiation-induced ovarian follicle loss occurs without overt stromal changes |
9 |
| Involvement of leptin in the molecular physiology of the placenta |
9 |
| DNA methylation in the pathogenesis of polycystic ovary syndrome |
9 |
| Persistent effects on bovine granulosa cell transcriptome after resolution of uterine disease |
8 |
| Regulation of GnRH pulsatility in ewes |
8 |
| Initiation of follicular atresia: gene networks during early atresia in pig ovaries |
8 |
| Ovarian angiogenesis in polycystic ovary syndrome |
8 |
| Lactational programming of glucose homeostasis: a window of opportunity |
8 |
| Ubiquitin-proteasome system participates in the de-aggregation of spermadhesins and DQH protein during boar sperm capacitation |
7 |
| Androgens in maternal vascular and placental function: implications for preeclampsia pathogenesis |
7 |
| Regulation of GDNF expression in Sertoli cells |
7 |
| Extracellular vesicles secreted during blastulation show viability of bovine embryos |
7 |
| Molecular regulation of spermatogonial stem cell renewal and differentiation |
7 |
| D-Asp upregulates PREP and GluA2/3 expressions and induces p-ERK1/2 and p-Akt in rat testis |
7 |
| A switch from high-fat to normal diet does not restore sperm quality but prevents metabolic syndrome |
7 |
| Identification by proteomics of oviductal sperm-interacting proteins |
7 |
| Disruption of female reproductive function by endotoxins |
7 |
| Effects of extracellular vesicles on placentation and pregnancy disorders |
7 |
| Regulation of long non-coding RNAs and circular RNAs in spermatogonial stem cells |
7 |
| Regulation of the porcine corpus luteum during pregnancy |
7 |
| Germ granule-mediated RNA regulation in male germ cells |
6 |
| High-fat diet exposure from pre-pubertal age induces polycystic ovary syndrome (PCOS) in rats |
6 |
| Disturbed spermatogenic signaling in pituitary adenylate cyclase activating polypeptide-deficient mice |
6 |
| PGRMC1 localization and putative function in the nucleolus of bovine granulosa cells and oocytes |
6 |
| Effect of the neuropeptide phoenixin and its receptor GPR173 during folliculogenesis |
6 |
