Pamela Schinogl scite author profile

Background: The mitochondrial DNA (mtDNA) of the cloned sheep "Dolly" and nine other ovine clones produced by somatic cell nuclear transfer (SCNT) was reported to consist only of recipient oocyte mtDNA without any detectable mtDNA contribution from the nucleus donor cell. In cattle, mouse and pig several or most of the clones showed transmission of nuclear donor mtDNA resulting in mitochondrial heteroplasmy. To clarify the discrepant transmission pattern of donor mtDNA in sheep clones we analysed the mtDNA composition of seven fetuses and five lambs cloned from fetal fibroblasts.

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Coexistence of Bos taurus and B. indicus Mitochondrial DNAs in Nuclear Transfer-Derived Somatic Cattle Clones

Steinborn

Schinogl

Wells

et al. 2002

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We investigated the mitochondrial DNA (mtDNA) composition in one of the largest adult somatic mammalian clones (n = 20) reported so far. The healthy cloned cattle were derived from nuclear transfer of an identical nuclear genetic background (mural granulosa donor cells including surrounding cytoplasm) into enucleated oocytes with either Bos indicus or B. taurus mtDNA. Here we report the first cases of coexisting mtDNAs of two closely related subspecies following nuclear transfer. Heteroplasmy (0.6-2.8%) was found in 4 out of 11 cross-subspecies cloned cattle. Quantitation was performed using “amplification refractory mutation system (ARMS) allele-specific real-time PCR.” We determined that the ratio of donor cell to recipient cytoplast mtDNA copy number was 0.9% before nuclear transfer. Therefore, we concluded that the percentage of donor cell mtDNA in the heteroplasmic intersubspecific cloned animals is in accordance with neutral transmission of donor mtDNA. We determined an amino acid sequence divergence of up to 1.3% for the two subspecies-specific mtDNA haplotypes. In addition, intrasubspecific B. indicus heteroplasmy of ∼1% (but up to 7.3 and 12.7% in muscle and follicular cells of one animal) was detected in 7 out of the 9 B. indicus intrasubspecific cloned cattle.

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Quantification of the 4977-bp deletion in human mitochondrial DNA using real-time PCR

Schinogl

Müller

Steinborn

2001

Forensic Science International

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Pamela Schinogl

Mitochondrial DNA heteroplasmy in cloned cattle produced by fetal and adult cell cloning

Mitochondrial DNA heteroplasmy in ovine fetuses and sheep cloned by somatic cell nuclear transfer

Coexistence of Bos taurus and B. indicus Mitochondrial DNAs in Nuclear Transfer-Derived Somatic Cattle Clones

Quantification of the 4977-bp deletion in human mitochondrial DNA using real-time PCR

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