Rebecca Keyston scite author profile

The developmental potential of caprine fetal fibroblast nuclei after in vitro transfection and nuclear transfer (NT) into enucleated, in vitro-matured oocytes was evaluated. Fetal fibroblasts were isolated from Day 27 to Day 30 fetuses from a dwarf breed of goat (BELE: breed early lactate early). Cells were transfected with constructs containing the enhanced green fluorescent protein (eGFP) and neomycin resistance genes and were selected with G418. Three eGFP lines and one nontransfected line were used as donor cells in NT. Donor cells were cultured in Dulbecco minimum Eagle medium plus 0.5% fetal calf serum for 4-8 days prior to use in NT. Immature oocytes were recovered by laparoscopic ovum pick-up and matured for 24 h prior to enucleation and NT. Reconstructed embryos were transferred as cleaved embryos into synchronized recipients. A total of 27 embryos derived from transgenic cells and 70 embryos derived from nontransgenic cells were transferred into 13 recipients. Five recipients (38%) were confirmed pregnant at Day 35 by ultrasound. Of these, four recipients delivered five male kids (7.1% of embryos transferred) derived from the nontransfected line. One recipient delivered a female kid derived from an eGFP line (7.7% of embryos transferred for that cell line). Presence of the eGFP transgene was confirmed by polymerase chain reaction, Southern blotting, and fluorescent in situ hybridization analyses. Nuclear transfer derivation from the donor cells was confirmed by single-strand confirmation polymorphism analysis. These results demonstrate that both in vitro-transfected and nontransfected caprine fetal fibroblasts can direct full-term development following NT.

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Production of Cloned Goats after Nuclear Transfer Using Adult Somatic Cells1

Keefer¹,

Keyston²,

Lazaris³

et al. 2002

141

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The developmental potential of adult somatic nuclei after nuclear transfer (NT) into enucleated, in vitro-matured oocytes was evaluated in a dwarf breed of goat (BELE: Breed Early Lactate Early). Somatic donor cells were obtained from two different sources: 1) adult granulosa cells (GCs) and 2) fetal fibroblasts. Primary GCs were obtained from follicular aspirants after laparoscopic oocyte pick-up (LOPU) and were cryopreserved immediately. Frozen aliquots of cells were thawed and cultured until confluent and were then cultured in low serum for 4 days before use in NT. Immature oocytes were obtained by LOPU and matured before enucleation and NT. Ninety-one adult GC-derived NT embryos were transferred into eight recipients, four of which were confirmed pregnant (50%) at Day 30 by ultrasound. Fifty-four male fetal fibroblast-derived NT embryos were transferred into six recipients, one of which was confirmed pregnant (17%). All pregnancies were maintained through term. Four recipients delivered seven female kids (three sets of twins) derived from the GC cultures (7.7% of embryos transferred). The other recipient delivered two male kids (3.7% of embryos transferred). Birth weights were within the normal range for dwarf goats. One female twin and one male twin died at birth; the remaining kids appeared healthy and normal. DNA analysis confirmed that the kids were genetically identical to their respective donors. These results demonstrated that adult caprine somatic cells could direct normal development after NT.

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Transgene Expression of Green Fluorescent Protein and Germ Line Transmission in Cloned Calves Derived from In Vitro-Transfected Somatic Cells1

Bordignon

Keyston²,

Lazaris³

et al. 2003

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In vitro transfection of cultured cells combined with nuclear transfer currently is the most effective procedure to produce transgenic livestock. In the present study, bovine primary fetal fibroblasts were transfected with a green fluorescent protein (GFP)-reporter transgene and used as nuclear donor cells in oocyte reconstructions. Because cell synchronization protocols are less effective after transfection, activated oocytes may be more suitable as hosts for nuclear transfer. To examine the role of host cytoplasm on transgene expression and developmental outcome, GFP-expressing fibroblasts were fused to oocytes reconstructed either before (metaphase) or after (telophase) activation. Expression of GFP was examined during early embryogenesis, in tissues of cloned calves, and again during embryogenesis, after passage through germ line using semen from the transgenic cloned offspring. Regardless of the kind of host cytoplasm used, GFP became detectable at the 8- to 16-cell stage, approximately 80 h after reconstruction, and remained positive at all later stages. After birth, although cloned calves obtained through both procedures expressed GFP in all tissues examined, expression levels varied both between tissues and between cells within the same tissue, indicating a partial shutdown of GFP expression during cellular differentiation. Moreover, nonexpressing fibroblasts derived from transgenic offspring were unable to direct GFP expression after nuclear transfer and development to the blastocyst stage, suggesting an irreversible silencing of transgenes. Nonetheless, GFP was expressed in approximately half the blastocysts obtained with sperm from a transgenic clone, confirming transmission of the transgene through the germ line.

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Embryo transfer in a commercial transgenic production program using bele® goat embryos

Baldassarre¹,

B²,

Gauthier³

et al. 1999

Theriogenology

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Transgenesis Using Nuclear Transfer in Goats

Lazaris¹,

Keyston²,

Karatzas³

et al.

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Rebecca Keyston

Generation of Dwarf Goat (Capra hircus) Clones Following Nuclear Transfer with Transfected and Nontransfected Fetal Fibroblasts and In Vitro-Matured Oocytes1

Production of Cloned Goats after Nuclear Transfer Using Adult Somatic Cells1

Transgene Expression of Green Fluorescent Protein and Germ Line Transmission in Cloned Calves Derived from In Vitro-Transfected Somatic Cells1

Embryo transfer in a commercial transgenic production program using bele® goat embryos

Transgenesis Using Nuclear Transfer in Goats

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