Human reproduction
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Our research has focused on promoting the development of compromised embryos by transferring presumably normal ooplasm, including mitochondria, to oocytes during intracytoplasmic insemination. Because of the enigma of mitochondrial heteroplasmy, the mixing of populations of oocyte cytoplasm has provoked considerable debate. We are currently investigating oocyte mitochondrial (mt) DNA mutations and the effects of ooplasmic transplantation on mitochondrial inheritance and mitochondrial functionality. ⋯ By examining the donor and recipient blood samples it is possible to distinguish differences in their mtDNA fingerprint. A small proportion of donor mitochondrial DNA was detected in samples with the following frequencies: embryos (six out of 13), amniocytes (one out of four), placenta (two out of four), and fetal cord blood (two out of four). Ooplasmic transfer can thus result in sustained mtDNA heteroplasmy representing both the donor and recipient.