Abstract
The oocyte undergoes a remarkably long and elaborated journey within the follicle before becoming fully equipped to sustain embryonic development. Its ability to support early embryonic development relies largely on the maternal transcripts accumulated during its growth and maturation. However, it is still not clear what transcriptome blueprint composes a competent oocyte. A number of extensive studies provided a detailed characterization of the mRNA molecules that are gradually accumulated in the oocyte cytoplasm. The detail of our knowledge has gradually increased through the years also thanks to the development and improvement of the analytical techniques. From realtime PCR analysis of single transcripts, to the whole transcriptome approach of gene arrays and new genereation sequencing, scientists accumulated an exponentially growing amount of new information. More recently, the discovery of non-coding RNAs revealed a new layer of complexity in the mechanisms that modulate gene expression at the mRNA level, in folliculogenesis and oogenesis. In particular, data are emerging on the potential role of microRNAs in controlling ovarian function, oocyte maturation and the oocyte-somatic cell cross talk. This review will try to summarize the vast amount of data currently available on the mRNAs and microRNAs associated with the ovarian function and to find their biological significance.
Highlights
A complex spatio-temporal interaction of several metabolic pathways strictly regulates folliculogenesis and oogenesis, which contributes to the gradual acquisition of the oocyte developmental potential
Data suggest that miRNAs may regulate cellular differentiation during follicular development and may contribute to the oocyte-somatic cells dialog during the acquisition of oocyte developmental competence
The development of new technologies for the analysis of gene expression and the improvement of reproductive biotechnologies have changed the approaches to study the biology of gametes and early embryos, including oocyte, spermatozoa and blastocyst
Summary
A complex spatio-temporal interaction of several metabolic pathways strictly regulates folliculogenesis and oogenesis, which contributes to the gradual acquisition of the oocyte developmental potential. Data suggest that miRNAs may regulate cellular differentiation during follicular development and may contribute to the oocyte-somatic cells dialog during the acquisition of oocyte developmental competence. Studies in mice show that miRNAs have an important role in modultating a large proportion of maternal mRNA expressed during oogenesis and early embryo development (Tang et al, 2007).
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
