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BIBLIOGRAPHY
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2. Amdani, S.N., et al., Phospholipase C zeta (PLCzeta) and male infertility: Clinical update and topical developments. Adv Biol Regul, 2016. 61: p. 58-67.
3. Anifandis, G., et al., Sperm contributions to oocyte activation: more that meets the eye. J Assist Reprod Genet, 2016. 33(3): p. 313-6.
4. Asch, R., et al., The stages at which human fertilization arrests: microtubule and chromosome configurations in inseminated oocytes which failed to complete fertilization and development in humans. Hum Reprod, 1995. 10(7): p. 1897-906.
5. Barroso, G., et al., Developmental sperm contributions: fertilization and beyond. Fertil Steril, 2009. 92(3): p. 835-48.
6. Chen, B., et al., Novel mutations and structural deletions in TUBB8: expanding mutational and phenotypic spectrum of patients with arrest in oocyte maturation, fertilization or early embryonic development. Hum Reprod, 2017. 32(2): p. 457-464.
7. Combelles, C., Unique patient issues: early interventions and management. Semin Reprod Med, 2012. 30(3): p. 243-52.
8. Combelles, C.M., D.F. Albertini, and C. Racowsky, Distinct microtubule and chromatin characteristics of human oocytes after failed in-vivo and in-vitro meiotic maturation. Hum Reprod, 2003. 18(10): p. 2124-30.
9. Combelles, C.M., et al., Cellular and genetic analysis of oocytes and embryos in a human case of spontaneous oocyte activation. Hum Reprod, 2011. 26(3): p. 545-52.
10. Combelles, C.M., et al., Diagnosing cellular defects in an unexplained case of total fertilization failure. Hum Reprod, 2010. 25(7): p. 1666-71.
11. Duncan, F.E., et al., The zinc spark is an inorganic signature of human egg activation. Sci Rep, 2016. 6: p. 24737.
12. Durban, M., et al., PLCzeta disruption with complete fertilization failure in normozoospermia. J Assist Reprod Genet, 2015. 32(6): p. 879-86.
13. Ebner, T. and M. Montag, Artificial oocyte activation: evidence for clinical readiness. Reprod Biomed Online, 2016. 32(3): p. 271-3.
14. Ebner, T., et al., Live birth after artificial oocyte activation using a ready-to-use ionophore: a prospective multicentre study. Reprod Biomed Online, 2015. 30(4): p. 359-65. 15. Escoffier, J., et al., Homozygous mutation of PLCZ1 leads to defective human oocyte activation and infertility that is not rescued by the WW-binding protein PAWP. Hum Mol Genet, 2016. 25(5): p. 878-91.
16. Feng, R., et al., Mutations in TUBB8 and Human Oocyte Meiotic Arrest. N Engl J Med, 2016. 374(3): p. 223-32.
17. Feng, R., et al., Mutations in TUBB8 cause a multiplicity of phenotypes in human oocytes and early embryos. J Med Genet, 2016. 53(10): p. 662-71.
18. Ferrer-Vaquer, A., et al., PLCzeta sequence, protein levels, and distribution in human sperm do not correlate with semen characteristics and fertilization rates after ICSI. J Assist Reprod Genet, 2016. 33(6): p. 747-56.
19. Heindryckx, B., et al., Aberrant spindle structures responsible for recurrent human metaphase I oocyte arrest with attempts to induce meiosis artificially. Hum Reprod, 2011. 26(4): p. 791-800.
20. Heytens, E., et al., Reduced amounts and abnormal forms of phospholipase C zeta (PLCzeta) in spermatozoa from infertile men. Hum Reprod, 2009. 24(10): p. 2417-28.
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