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Research Paper
Correlation of Developmental Differences of Nuclear Transfer Embryos Cells to the Methylation Profiles of Nuclear Transfer Donor Cells in Swine
Aaron J. Bonk, Hee-Tae Cheong, Rongfeng Li, Liangxue Lai, Yanhong Hao, Zhonghua Liu, Melissa Samuel, Emily A. Fergason, Kristin M. Whitworth, Clifton N. Murphy, Eric Antoniou and Randall S. Prather
volume 2 | issue 3
july/august/september 2007This is an open-access article
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Methylation of DNA is the most commonly studied epigenetic mechanism of developmental competence and somatic cell nuclear transfer (SCNT). Previous studies of epigenetics and the SCNT procedures have examined the effects of different culture media on donor cells and reconstructed embryos, and the methylation status of specific genes in the fetus or live offspring. Here we used a microarray based approach to identify the methylation profiles of SCNT donor cells including three clonal porcine fetal fibroblast-like cell sublines and adult somatic cells selected from kidney and mammary tissues. The methylation profiles of the donor cells were then analyzed with respect to their ability to direct development to the blastocyst stage after nuclear transfer. Clonal cell lines A2, A7, and A8 had blastocyst rates of 11.7%a, 16.7%ab, and 20.0%b, respectively (ab P<0.05). Adult somatic cells included kidney, mammary (large), and mammary (small) also had different blastocyst rates (ab P<0.05) of 4.2% a, 10.7% ab, and 18.3% b, respectively. For clonal donor cells and for adult somatic cell groups the donor cells with the highest blastocyst rates also had methylation profiles with the lowest similarity to the methylation profiles of the in vivo-produced blastocysts. Conversely, the donor cells with the lowest blastocyst rates had methylation profiles with the highest similarity to the methylation profiles of the in vivo produced blastocysts. Our findings show there is an inverse correlation to the similarity of the methylation profiles of the donor cells and the in vivo produced embryos, and to the blastocyst rates following SCNT.
Authors
Aaron J. Bonk
Division of Animal Science; University of Missouri-Columbia; Columbia, Missouri 65211 USA
Hee-Tae Cheong
Division of Animal Science; University of Missouri-Columbia; Columbia, Missouri 65211 USA School of Veterinary Medicine; Kangwon National University; Chuncheon 200-701, Korea
Rongfeng Li
Division of Animal Science; University of Missouri-Columbia; Columbia, Missouri 65211 USA
Liangxue Lai
Division of Animal Science; University of Missouri-Columbia; Columbia, Missouri 65211 USA
Yanhong Hao
Division of Animal Science; University of Missouri-Columbia; Columbia, Missouri 65211 USA
Zhonghua Liu
Division of Animal Science; University of Missouri-Columbia; Columbia, Missouri 65211 USA
Melissa Samuel
Division of Animal Science; University of Missouri-Columbia; Columbia, Missouri 65211 USA
Emily A. Fergason
Division of Animal Science; University of Missouri-Columbia; Columbia, Missouri 65211 USA
Kristin M. Whitworth
Division of Animal Science; University of Missouri-Columbia; Columbia, Missouri 65211 USA
Clifton N. Murphy
Division of Animal Science; University of Missouri-Columbia; Columbia, Missouri 65211 USA
Eric Antoniou
Division of Animal Science; University of Missouri-Columbia; Columbia, Missouri 65211 USA
Randall S. Prather
Division of Animal Science, Food for the 21st Century, College of Food, Agriculture & Natural Resources, University of Missouri-Columbia
This is an open-access article
Download PDFIf the document does not open, please right-click on the link (control-click on a Macintosh) and select the option to save the file to disk.