摘要
Enucleation is a crucial procedure for mammalian somatic cell nuclear transfer(SCNT), especially for domestic animal cloning. Oocytes of domestic animals such as pigs and cattle contain dark lipid droplets that hinder localization and removal of the nucleus. Using an oocyte enucleation technique that can obtain a high enucleation rate but has minimal negative effects on the reprogramming potential of oocyte for cloning is bene?cial for enhancing the outcome of SCNT. In this study, we compared the pig cloning ef?ciency resulting from blind aspiration-based(BA-B) enucleation and spindle imaging system-assisted(SIS-A) enucleation, and compared the pig SCNT success rate associated with BA-B enucleation and blind aspiration plus post-enucleation staining-based(BAPPS-B) enucleation. SIS-A enucleation achieved a signi?cantly higher oocyte enucleation success rate and tended to obtain a higher in vivo full term development rate of SCNT embryos than BA-B enucleation. BAPPS-B enucleation also obtained signi?cantly higher in vitro as well as in vivo full term development ef?ciency of cloned porcine embryos than BA-B enucleation. These data indicate that SIS-A and BAPPS-B enucleation are better approaches for pig SCNT than BA-B enucleation.
Enucleation is a crucial procedure for mammalian somatic cell nuclear transfer(SCNT), especially for domestic animal cloning. Oocytes of domestic animals such as pigs and cattle contain dark lipid droplets that hinder localization and removal of the nucleus. Using an oocyte enucleation technique that can obtain a high enucleation rate but has minimal negative effects on the reprogramming potential of oocyte for cloning is bene?cial for enhancing the outcome of SCNT. In this study, we compared the pig cloning ef?ciency resulting from blind aspiration-based(BA-B) enucleation and spindle imaging system-assisted(SIS-A) enucleation, and compared the pig SCNT success rate associated with BA-B enucleation and blind aspiration plus post-enucleation staining-based(BAPPS-B) enucleation. SIS-A enucleation achieved a signi?cantly higher oocyte enucleation success rate and tended to obtain a higher in vivo full term development rate of SCNT embryos than BA-B enucleation. BAPPS-B enucleation also obtained signi?cantly higher in vitro as well as in vivo full term development ef?ciency of cloned porcine embryos than BA-B enucleation. These data indicate that SIS-A and BAPPS-B enucleation are better approaches for pig SCNT than BA-B enucleation.
基金
supported by the National Natural Science Foundation of China (31772554)
the Department of Science and Technology of Guangdong Province, China (2016B020233006, 2015TX01N081 and 2016A020210074)
the team project of Guangdong Agricultural Department (2017LM2148)