Assisted reproductive technologies (ART) merely depend on improving the oocyte maturation and their developmental competence to produce good quality embryos. Oocyte maturation passes through long and complex molecular steps starts from the early embryonic life and ends with sperm fertilization. Oocyte developmental competence can be attained by improving the nuclear and cytoplasmic mechanisms together with some epigenetic maturation. In this review, we highlight the cornerstones of oocyte maturation on both nuclear and cytoplasmic levels. Interfering or supporting these molecular mechanisms would help in the development of novel regulating agents for reproductive performance of humans and livestock species.

In this study, the apoptotic effects of the actin disruption agent, latrunculin B(LB) have been investigated on p53 deficient chronic myeloid leukemia cell line K562. A dose-dependent decrease in K562 cell proliferation was observed after LB treatment with maximum decrease in cell proliferation being at 1.5μM where the percent inhibition was 66.53%. F-actin stained with TRITC-phalloidin was shown as a peripheral ring or appeared diffusely distributed throughout the cytoplasm in untreated cells, this actin ring was decreased following LB treatment, and even large focal actin aggregates were formed. Treatment of K562 with LB(1.5μM) generated ROS substantially. LB activated expression in a dose-dependent manner. Therefore it can be concluded that LB, depolymerising agent of actin, induces apoptosis by producing ROS and up-regulating NF-kB and COX-2 activation.

Selection of oocyte cryopreservation method is a prerequisite factor for developing an effective bank system. Compared with slow freezing method, the vitrification has various advantages such as avoiding intracellular ice crustal formation. In our previous, we attempted to employ a vitrification method using ethylene glycol and an electron microscope grid for cryopreservation of mouse oocytes. However, A high incidence of spindle and chromosome abnormalities was detected in thawed oocytes after vitrification. We examined whether the addition of a cystoskeleton stabilizer Taxol , to the vitrification solution could promote the post-thawed survival and subsequent development of stored oocytes. More oocytes developed to the 4-cell (44.7% vs. 69.7%), 8-cell (31.8% vs. 64.2%), morula (24.7% vs. 54.3%), and blastocyst (20.3% vs. 49.2%) stages after the addition of Taxol to the cryoprotectant than after no addition. 21 and 26 mouse pups were born after transfer of blastocyst derived from oocytes vitrified without and with Taxol. The addition of Taxol to vitrification solution greatly promoted post-thaw preimplantation development of ICR morose oocytes.tes.