• vaoeh education956

Recommended publications

Mitochondrial Transfer Referencesh

  • Acton, B., Jurisicova, A., Ahmady, A., et al., Microinjection of mitochondrial fractions into FVB oocytes: influences in vitro survival rates. 34th Annual Society Study Reproductions 17: 440, 2001.
  • Anderson, R., Telfer, E., Replenishing the adult ovarian follicle population: a fresh look at dogma. Molecular Human Reproduction, 22: 5, 313-315, 2016.
  • Barritt, J.A., Willadsen, S., Brenner, C., et al., Epigenetic and experimental modifications in early mammalian development: Part II. Human Reproduction Update 7: 428-435, 2001.
  • Cagnon, G., Tsai, T., Makanji, Y., et. Al., Restoration of normal embryogenesis by mitochondrial supplementation in pig oocytes exhibiting mitochondrial DNA deficiency. Nature. March 18, 2016.
  • Chappel, S., The Role of Mitochondria from Mature Oocyte to Viable Blastocyst, Obstetrics and Gynecology International 2013:1-10, 2013.
  • Cheng, Y., Wang. K., Kellam, L., et al., Effects of ooplasm manipulation on DNA methylation and growth of progeny in mice. Biology Reproduction 80: 464-472, 2009.
  • Cohen, J., Scott, R., Alikani, M., et al., Ooplasmic transfer in mature human oocytes. Molecular Human Reproduction 4: 269-280, 1998.
  • Dumolland, R., Duchen, M., and Carroll, J., The role of mitochondrial function in the oocyte and embryo. Current Topics in Developmental Biology 77: 21-49, 2007.
  • Duran, H.E., Simsek-Duran, F., Oeringer, S.C., et al., The association of reproductive senescence with mitochondrial quality function and DNA integrity in human oocytes at different stages of development. Fertility and Sterility 96: 384-388, 2011.
  • El Shourbagy, S., Spikings, E., Freitas, M., St John, J., Mitochondria directly influence fertilization outcome in the pig, Reproduction Research 131: 233245, 2006.
  • Fakih, M.H., El Shmoury, M., Szeptycki, J., et al., The AUGMENT treatment: physician reported outcomes of the initial global patient experience. Journal of Fertilization: In Vitro, ICF-Worldwide, Reproductive medicine Genetics & Stem Cell Biology 3: 1-7, 2015.
  • Ferreira, C.R., Burgstaller, J.P., and Perecin F. Pronounced segregation of donor mitochondria introduced by bovine ooplasmic transfer to the female germ-line. Biology of Reproduction 82: 563-571, 2010.
  • Fragouli, E., Spath, K., Alfarawati, S., et al. Altered Levels of Mitochondrial DNA are Associated with Female Age, Aneuploidy, and Provide an Independent Measure of Embryonic Implantation Potential. Plos Genetics. 1-18. June 3, 2015
  • Hua, S., Zhang, Y., Li, X., et al., Effects of granulosa cell mitochondria transfer on the early development of bovine embryos in vitro. Cloning and Stem Cells 9: 237-246, 2007.
  • Huang, C., Cheng, T., Chang, H., et al., Birth after the injection of sperm and the cytoplasm of tripronucleate zygotes into metaphase II oocytes in patients with repeated implantation failure after assisted fertilization procedures. Fertility and Sterility 72: 702-706, 1999.
  • Ishihara, N., Jofuku, A., Eura, Y., Mihara, K., Regulation of mitochondrial morphology by membrane potential and DRP1 dependent division and FZO1 dependent fusion reaction in mammalian cells. Biochemical Biophysical Res Communications 301: 891-898, 2003.
  • Johnson, J., Canning, J., Kaneko, T., et al., Germ-line stem cells and follicular renewal in the postnatal mammalian ovary. Nature 428: 145-150, 2004.
  • Keefe, D., Niven-Fairchild, T., Powell, S., and Buradagunta, S. Mitochondrial deoxyribonucleic acid deletions in oocytes and reproductive aging women. Fertility and Sterility 64: 577-583, 1995.
  • Lagouge M., Argmann C., Gerhart-Hines Z., et al., Resveratrol improves mitochondrial function and protects against metabolic disease by activating SIRT1 and PGC-1alpha. Cell.127:1109-22, 2006.
  • Lanzendorf, S.E., Mayer, J., Toner, J., et al., Pregnancy following transfer of ooplasm from cryopreserved-thawed donor oocytes into recipient oocytes. Fertility and Sterility 71: 575-577, 1999.
  • Levron, J., Willadsen, S., Bertoli M., and Cohen, J. The development of mouse zygotes after fusion with synchronous and asynchronous cytoplasm. Human Reproduction 11: 1287-1292, 1996.
  • May-Panloup, P.M., Chretien, M.F., Jacques, C., et al., Low oocyte mitochondrial DNA content in ovarian insufficiency. Human Reproduction 20: 593-597, 2005.
  • Meirelles, F.V. and Smith, L.C. Mitochondrial genotype segregation during preimplantation development in mouse heteroplasmic embryos. Genetics 148: 877-883, 1998.
  • Meldrum, D., Casper, R., Diez-Juan, A., et al. Aging and the environment affect gamete and embryo potential: can we intervene? Fertility and Sterility 105: 3, 2016.
  • Moren, C., Hernandez, S., et al. Mitochondrial Toxicity in Human Pregnancy: An Update on Clinical and Experimental Approaches in the Last 10 Years. International Journal of Environmental Research and Public Health 11: 9897-9918, 2014.
  • Nagai, S., Mabuchi, T., Hirata, S., et al., Oocyte Mitochondria: Strategies to improve embryogenesis. Human Cell 17: 195-201, 2004.
  • Pinckert. C.A., Irwin, M., Johnson, L., Moffatt, R., Mitochondria transfer into mouse ova by microinjection. Transgenic Research 6: 379-383, 1997.
  • Price N.L., Gomes A.P., Ling A.J., et al. SIRT1 is required for AMPK activation and the beneficial effects of resveratrol on mitochondrial function. Cell Metabolism 15:675-690, 2012
  • Ramalho-Santos, J., Varum, S, Amaral, S., et al., Mitochondrial functionality in reproduction: from gonads and gametes to embryos and embryonic stem cells. Human Reproduction Update 15: 553-572, 2009.
  • Spikings, E.C., Alderson, J., St John, J.C., Regulated mitochondrial DNA replication during oocyte maturation is essential for successful porcine embryonic development. Biology Reproduction 76: 327-335, 2007.
  • St. John, J.C., Ooplasm donation in humans: the need to investigate the transmission of mitochondrial DNA following cytoplasmic transfer. Human Reproduction 17: 1954-1958, 2002.
  • Takeda, K., Tasia, M., Iwamoto, M., et al., Microinjection of cytoplasm or mitochondria derived from somatic cells affects parthenogenetic development of murine oocytes. Biology Reproduction 72: 1397-1404, 2005.
  • Thouas, G.A., Trounson, A.O., Wolvetang, E.J., et al., Mitochondrial dysfunction in mouse oocytes results in preimplantation and arrest. Biology Reproduction 71: 1936-1942, 2004.
  • Tzeng CR, Hsieh RH, Au HK, et al., Mitochondria transfer (MIT) into oocyte from autologous cumulus granulosa cells (cGCs). Fertil Steril 82: S53, 2004.
  • Van Blerkom, J., Davis, P., Alexander, S., Differential mitochondrial distribution in human pronuclear embryos leads to disproportionate inheritance between blastomeres: relationship to microtubular organization, ATP content and competence. Human Reproduction 15: 2621-2633, 2000.
  • Van Blerkom, J., Sinclair, J., and Davis, P. Mitochondrial transfer between oocytes: potential applications of mitochondrial donation and the issue of heteroplasmy. Human Reproduction 13: 2857-2868, 1998.
  • Wai T., Ao A., Zhang X., et al. The role of mitochondrial DNA copy number in mammalian fertility. Biology of Reproduction 83: 52–62, 2010.
  • Wang, J. and Sauer, M.V., In vitro fertilization (IVF): a review of a decades of clinical innovation and technological advancement. Therapeutics and Clinical Risk Management 2: 355-364, 2006.
  • Wang L., Wang D., Zou X., and Xu C. Mitochondrial functions on oocytes and preimplantation embryos. Journal of Zhejiang University SCIENCE B 10: 483-492.
  • White, Y. A., Woods, D., Takai, Y, et al., Oocyte formation by mitotically active germ cells purified from ovaries of reproductive-age women. Nature Medicine 18: 413-421, 2012.
  • Woods, D., Tilly, J., Autologous Germline Mitochondrial Energy Transfer (AUGMENT) in Human Assisted Reproduction. Seminars in Reproductive Medicine. 2016.
  • Yi, Y., Chen, M., Ho, J., et al., Mitochondria transfer can enhance the murine embryo development. J Assisted Reproduction and Genetics 24: 445-449, 2007.