In Vitro Development and Postvitrification Survival of Cloned Feline Embryos Derived from Preadipocytes
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概要
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The aim of the present study was to optimize the conditions for in vitro development and postvitrification survival of somatic cell cloned feline embryos. To determine the effects of cell cycle synchronization of the nuclear donor cells, we cultured preadipocytes under serum starvation or conventional conditions. After two days in serum starvation culture, the proportion of synchronized donor cells at the G0/G1 phase was 91.6%. This was significantly higher than the proportion of non-synchronized cells in the proliferative phase (72.6%, P<0.05). The in vitro development of somatic cell nuclear transfer (SCNT) embryos reconstructed using donor cells treated under serum starvation conditions (normal cleavage rate of 65.7%, 46/70, and blastocyst formation rate of 20.0%, 14/70) was comparable to that of the serum supplemented group (52.5%, 31/59, and 20.3%, 12/59). Use of in vitro or in vivo matured oocytes as recipient cytoplasts equally supported development of the SCNT embryos to the blastocyst stage (11.9%, 5/42, vs. 9.5%, 2/21). SCNT-derived blastocysts were vitrified using the original minimum volume cooling (MVC) or the modified (stepwise) MVC method. Although none (n=10) of the SCNT blastocysts survived following vitrification by the original MVC method, the stepwise MVC method resulted in 100% survival after rewarming (n=11). In conclusion, we demonstrated that feline somatic cell cloned embryos with a high developmental ability can be produced irrespective of cell cycle synchronization of donor cells using either in vivo or in vitro matured oocytes. Furthermore, by utilizing a stepwise vitrification method, we showed that it is possible to cryopreserve cloned feline blastocysts.
- 2011-04-01
著者
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Nagashima Hiroshi
Laboratory Of Developmental Engineering Department Of Life Science School Of Agriculture Meiji Unive
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Tomii Ryo
Laboratory Of Developmental Engineering Department Of Life Science School Of Agriculture Meiji Unive
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Ogawa Buko
Laboratory Of Developmental Engineering Department Of Life Sciences School Of Agriculture Meiji Univ
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Imai Naoko
Laboratory Of Developmental Engineering Department Of Life Science School Of Agriculture Meiji Unive
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HANDA Yukiko
Laboratory of Developmental Engineering, Department of Life Science, School of Agriculture, Meiji Un
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SASAYAMA Norihisa
Research & Development Institute for Artificial Organs, Research & Development Laboratory, Nipro Cor
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SHIRASU Akio
Research & Development Institute for Artificial Organs, Research & Development Laboratory, Nipro Cor
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Shirasu Akio
Research & Development Institute For Artificial Organs Research & Development Laboratory Nip
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Handa Yukiko
Laboratory Of Developmental Engineering Department Of Life Science School Of Agriculture Meiji Unive
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Sasayama Norihisa
Research & Development Institute For Artificial Organs Research & Development Laboratory Nip
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Tomii Ryo
Laboratory Of Developmental Engineering Department Of Life Science School Of Agriculture Meiji Unive
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Nagashima Hiroshi
Laboratory Of Developmental Engineering Department Of Life Science School Of Agriculture Meiji Unive
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Nagashima Hiroshi
Laboratory For Evolutionary Morphology Riken Cdb
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Ogawa Buko
Laboratory Of Developmental Engineering Department Of Life Science School Of Agriculture Meiji Unive
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