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Rapid sexing of preimplantation bovine embryo using consecutive and multiplex polymerase chain reaction (PCR) with biopsied single blastomere

Cited 59 time in Web of Science Cited 61 time in Scopus
Authors

Park, JH; Lee, JH; Choi, KM; Joung, SY; Kim, JY; Chung, GM; Jin, DI; Im, KS

Issue Date
2001-06
Publisher
Elsevier BV
Citation
Theriogenology, Vol.55 No.9, pp.1843-1853
Abstract
The objective of this study was to establish a rapid and reliable PCR method for the sexing of 8- to 16-cell stage bovine embryos. The BOV97M and bovine 1.715 satellite DNA sequences were selected for amplification of male- and bovine-specific DNA, respectively. But the unequal number of copies of these two repetitive sequences required some modification of the multiplex PCR method. In consecutive and multiplex PCR, the first 10 PCR cycles were done with male-specific primer followed by an additional 23 cycles with bovine-specific primer. In this PCR method, the appearance of male- and bovine-specific bands was independent of the DNA concentration. This PCR method was applied successfully using groups of 8, 4, 2, and 1 blastomeres dissociated fi om the embryos, and the sexing efficiency was 100.0, 96.3, 94.3 and 92.1%, respectively. The coincident rate of sex determination between biopsied single blastomere and matched blastocyst was 90.0%. Therefore the developmental potential from 8- to 16-cell stage embryos to the blastocyst stage was not significantly different (P >0.2) for intact embryo (42.3%) than for demi-embryos (53.8%), suggesting that trauma to the demi-embryo caused by single-blastomere aspiration using a bevelled micropipette was very small. In conclusion, we developed a rapid (within 2 hours) and effective PCR method for the sexing of 8-to 16-cell stage bovine embryos using a single blastomere. (C) 2001 by Elsevier Science Inc.
ISSN
0093-691X
URI
https://hdl.handle.net/10371/208769
DOI
https://doi.org/10.1016/S0093-691X(01)00526-X
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  • Graduate School of International Agricultural Technology
  • Department of International Agricultural Technology
Research Area Epigenomic dynamics in stem cell differentiation, Knowledge-based target identification and validation of disease and economic traits, Nonclinical development of biopharmaceuticals

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