References
- Li R, Albertini DF. The road to maturation: somatic cell interaction and self-organization of the mammalian oocyte. Nat Rev Mol Cell Biol. 2013;14(3):141–152.
- Grainger DA, Tjaden BL, Tatpati LL. Chapter 20-Assisted reproductive technologies. In: Goldman MB, Troisi R, Rexrode KM, editors. Women and health. 2nd ed. Salt Lake City: Academic Press; 2013. p. 307–320.
- Kimura N, Hoshino Y, Totsukawa K, et al. Cellular and molecular events during oocyte maturation in mammals: molecules of cumulus-oocyte complex matrix and signalling pathways regulating meiotic progression. Soc Reprod Fertil Suppl. 2007;63:327–342.
- Vogt E, Kirsch-Volders M, Parry J, et al. Spindle formation, chromosome segregation and the spindle checkpoint in mammalian oocytes and susceptibility to meiotic error. Mutat Res. 2008;651(1–2):14–29.
- Coticchio G, Dal Canto M, Mignini Renzini M, et al. Oocyte maturation: gamete-somatic cells interactions, meiotic resumption, cytoskeletal dynamics and cytoplasmic reorganization. Hum Reprod Update. 2015;21(4):427–454.
- Albertini DF. Regulation of meiotic maturation in the mammalian oocyte – Interplay between exogenous cues and the microtubule cytoskeleton. Bioessays. 1992;14(2):97–103.
- Mehlmann LM. Stops and starts in mammalian oocytes: recent advances in understanding the regulation of meiotic arrest and oocyte maturation. Reproduction. 2005;130(6):791–799.
- Maro B, Verlhac MH. Polar body formation: new rules for asymmetric divisions. Nat Cell Biol. 2002;4(12):E281–E283.
- Sun QY, Schatten H. Regulation of dynamic events by microfilaments during oocyte maturation and fertilization. Reproduction. 2006;131(2):193–205.
- Maxwell SA, Arlinghaus RB. Serine kinase activity associated with Maloney murine sarcoma virus-124-encoded p37MOS. Virology. 1985;143(1):321–333.
- Gebauer F, Xu W, Cooper GM, et al. Translational control by cytoplasmic polyadenylation of c-MOS mRNA is necessary for oocyte maturation in the mouse. EMBO J. 1994;13(23):5712–5720.
- Pelech SL, Sanghera JS. MAP kinases: charting the regulatory pathways. Science. 1992;257(5075):1355–1356.
- Mansour SJ, Matten WT, Hermann AS, et al. Transformation of mammalian cells by constitutively active MAP kinase kinase. Science. 1994;265(5174):966–970.
- Zhou RP, Oskarsson M, Paules RS, et al. Ability of the c-MOS product to associate with and phosphorylate tubulin. Science. 1991;251(4994):671–675.
- Verlhac MH, Kubiak JZ, Weber M, et al. MOS is required for MAP kinase activation and is involved in microtubule organization during meiotic maturation in the mouse. Development. 1996;122(3):815–822.
- Zhao L, Guan Y, Wang W, et al. Identification novel mutations in TUBB8 in female infertility and a novel phenotype of large polar body in oocytes with TUBB8 mutations. J Assist Reprod Genet. 2020;37(8):1837–1847.
- Cao Q, Zhao C, Wang C, et al. The recurrent mutation in PATL2 inhibits its degradation thus causing female infertility characterized by oocyte maturation defect through regulation of the MOS-MAPK pathway. Front Cell Dev Biol. 2021;9:628649.
- Choi T, Fukasawa K, Zhou R, et al. The MOS/mitogen-activated protein kinase (MAPK) pathway regulates the size and degradation of the fifirst polar body in maturing mouse oocytes. Proc Natl Acad Sci USA. 1996;93(14):7032–7035.
- Zhang YL, Liu XM, Ji SY, et al. ERK1/2 activities are dispensable for oocyte growth but are required for meiotic maturation and pronuclear formation in mouse. J Genet Genomics. 2015;42(9):477–485.
- Zhang YL, Zheng W, Ren P, et al. Biallelic mutations in MOS cause female infertility characterized by human early embryonic arrest and fragmentation. EMBO Mol Med. 2021;13(12):e14887.
- Zeng Y, Shi J, Xu S, et al. Bi-allelic mutations in MOS cause female infertility characterized by preimplantation embryonic arrest. Hum Reprod. 2022;37(3):612–620.
- Bernhardt ML, Kim AM, O'Halloran TV, et al. Zinc requirement during meiosis I-meiosis II transition in mouse oocytes is independent of the MOS-MAPK pathway. Biol Reprod. 2011;84(3):526–536.
- Wang S, Hu J, Guo X, et al. ADPribosylation factor 1 regulates asymmetric cell division in female meiosis in the mouse. Biol Reprod. 2009;80(3):555–562.
- Tong C, Fan HY, Chen DY, et al. Effects of MEK inhibitor U0126 on meiotic progression in mouse oocytes: microtuble organization, asymmetric division and metaphase II arrest. Cell Res. 2003;13(5):375–383.
- Sun S-C, Kim N-H. Molecular mechanisms of asymmetric division in oocytes. Microsc Microanal. 2013;19(4):883–897.
- Brockmann C, Huarte J, Dugina V, et al. Beta- and gamma-cytoplasmic actins are required for meiosis in mouse oocytes. Biol Reprod. 2011;85(5):1025–1039.
- Pollard TD. Regulation of actin filament assembly by Arp2/3 complex and formins. Annu Rev Biophys Biomol Struct. 2007;36:451–477.
- Sun SC, Wang ZB, Xu YN, et al. Arp2/3 complex regulates asymmetric division and cytokinesis in mouse oocytes. PLoS One. 2011;6(4):e18392.
- Yi K, Unruh JR, Deng M, et al. Dynamic maintenance of asymmetric meiotic spindle position through Arp2/3 -complex -driven cytoplasmic streaming in mouse oocytes. Nat Cell Biol. 2011;13(10):1252–1258.
- Campellone KG, Welch MD. A nucleator arms race: cellular control of actin assembly. Nat Rev Mol Cell Biol. 2010;11(4):237–251.
- Mendoza MC, Er EE, Zhang W, et al. ERK-MAPK drives lamellipodia protrusion by activating the WAVE2 regulatory complex. Mol Cell. 2011;41(6):661–671.
- Chen J, Melton C, Suh N, et al. Genome-wide analysis of translation reveals a critical role for deleted in azoospermia-like (dazl) at the oocyte-to-zygote transition. Genes Dev. 2011;25(7):755–766.
- Sha QQ, Zhang J, Fan HY. A story of birth and death: mRNA translation and clearance at the onset of maternal-to-zygotic transition in mammalsdagger. Biol Reprod. 2019;101(3):579–590.
- Sha QQ, Zheng W, Wu YW, et al. Dynamics and clinical relevance of maternal mRNA clearance during the oocyte-to-embryo transition in humans. Nat Commun. 2020;11(1):4917.
- Yu C, Ji SY, Sha QQ, et al. BTG4 is a meiotic cell cycle-coupled maternal-zygotic-transition licensing factor in oocytes. Nat Struct Mol Biol. 2016;23(5):387–394.
- Sha QQ, Dai XX, Dang Y, et al. A MAPK Cascade couples maternal mRNA translation and degradation to meiotic cell cycle progression in mouse oocytes. Development. 2017;144(3):452–463.
- Cao LR, Jiang JC, Fan HY. Positive feedback stimulation of Ccnb1 and MOS mRNA translation by MAPK Cascade during mouse oocyte maturation. Front Cell Dev Biol. 2020;8:609430.
- Jiang JC, Zhang H, Cao LR, et al. Oocyte meiosis-coupled poly(A) polymerase α phosphorylation and activation trigger maternal mRNA translation in mice. Nucleic Acids Res. 2021;49(10):5867–5880.
- de Moor CH, Richter JD. The MOS pathway regulates cytoplasmic polyadenylation in xenopus oocytes. Mol Cell Biol. 1997;17(11):6419–6426.
- Chen B, Zhang Z, Sun X, et al. Biallelic mutations in PATL2 cause female infertility characterized by oocyte maturation arrest. Am J Hum Genet. 2017;101(4):609–615.
- Jia Y, Li K, Zheng C, et al. Identification and rescue of a novel TUBB8 mutation that causes the first mitotic division defects and infertility. J Assist Reprod Genet. 2020;37(11):2713–2722.