1Mazabraud A, Wegnez M, Denis H. Biochemical research on oogenesis. R NA accumulation in the oocytes of teleosts, Dev Biol. 1975(02): 326-332.
2Tilly J L. The molecular basis of o- varian cell death during germ cell attri- tion, follicular atresia, and luteolysis. Front Biosci. 1996(01): d1-d11.
3Malki S, van der Heijden G W, O'Donnell K A, et al. A role for retro- transposon LINE-1 in fetal oocyte attri- tion in mice. Dev Cell. 2014(05): 521-533.
4Touati S A, Burn E, Cladiere D, et al. Mouse oocytes depend on BubP,.1 for proper chromosome segregation but not for prophase I arrest. Nat Commun. 2015(06): 6946.
5Homer H, Gui L, Carroll J. A spindle assembly checkpoint protein functions in prophase I arrest and prometaphase progression. Science. 2009(5955): 991-994.
6Zhao L, Du X, Huang K, et al. Racl modulates the formation of pri- mordial follicles by facilitating STAT3- directed Jagged1, GDF9 and BMP15 transcription in mice. Sci R.ep. 2016, (06) 23972.
7Choi Y, Yuan D, Rajkovic A. Germ cell-specific transcriptional regu- lator sohlh2 is essential for early mouse folliculogenesis and oocyte -specific gene expression. Biol Reprod. 2008 (06): 1176-1182.
8Castro F C, Cruz M H, Leal C L. The role of growth factors GDF9 and BMP15 in ovarian function and its im- portance in Mammalian Female Fertil-ity. Asian-Australas J Anim Sci. 2015.
9Adhikari D, Zheng W, Shen Y, et al. Tsc/mTORC1 signaling in oocytes governs the quiescence and activation of primordial follicles. Hum Mol Genet. 2010(03): 397-410.
10Adhikari D, Liu K. Molecular mechanisms underlying the activation of manmaalian primordial follicles. Endocr Rev. 2009(05): 438-464.
