-
[show abstract]
[hide abstract]
ABSTRACT: 1. This study was conducted to develop a quantitative genotyping system of chimaeric chickens by real-time PCR. 2. The polymorphisms in exons 7 and 11 of PMEL17 gene, which is one of the major genes affecting plumage colour, were identified from White Leghorn, Barred Plymouth Rock and Rhode Island Red chickens. 3. Quantitative genotyping was successfully performed by real-time PCR using polymorphic sequence-specific TaqMan Probes. 4. This methodology can support future research of germline chimaeric chickens as well as the application of germ cell transfer technique.
British Poultry Science 10/2008; 49(5):542-9. · 1.00 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: 1. The present study was conducted to elucidate the effect of soft X-ray irradiation on the migratory ability of primordial germ cells (PGCs) to the germinal ridges of chicken embryos. 2. PGCs (Barred Plymouth Rock, BPR) were isolated from embryonic blood and irradiated with soft X-rays for 1-10 min. Then, the PGCs were transfected in vitro with GFP gene by lipofection. The manipulated PGCs were transferred to recipient embryos (White Leghorn, WL) and migration to the germinal ridges was analysed by examining GFP gene expression in the gonads of recipient embryos under UV light at x40 magnifications. The expression of GFP gene was detected in all the gonads of recipient embryos examined up to 10.5 d of culture. 3. Migration of PGCs irradiated with soft X-rays to the germinal ridges was also confirmed by detecting a single nucleotide polymorphism in the D-loop region of the mitochondrial DNA of BPR and WL chickens. Freshly collected PGCs (BPR) were transferred to the bloodstream of recipient embryos (WL). The fate of the transferred donor PGCs was traced by detecting the single nucleotide polymorphism in the D-loop region of the mitochondrial DNA in BPR and WL used in this study. Transferred donor PGC-derived cells were detected in all the gonads of 17-d cultured embryos by PCR. 4. The results suggest that PGCs irradiated with soft X-rays still retain the ability to migrate to the germinal ridges of recipient embryos.
British Poultry Science 05/2007; 48(2):121-6. · 1.00 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: 1. The present study was carried out to determine whether primordial germ cells isolated from embryonic blood can enter the bloodstream and successfully migrate to the germinal ridges of recipient embryos after transfer to stage X blastoderms, and also whether they can differentiate into blood cells, as is suggested in mice. 2. Primordial germ cells were transfected in vitro by lipofection and then transferred to stage X blastoderms. The introduced GFP gene was efficiently expressed in the gonads of 6-d incubated embryos. 3. Freshly collected primordial germ cells were transferred to stage X blastoderms. The fate of the transferred primordial germ cells was traced by detecting the single nucleotide polymorphism in the D-loop region of the mitochondrial DNA in White Leghorn and Barred Plymouth Rock chickens used in this study. The transferred donor primordial germ cell-derived cells were detected in the gonads, but not in the blood cells, of 17-d incubated embryos by PCR. 4. This procedure for primordial germ cell manipulation could provide a novel method of producing germline chimaeric chickens. 5. In conclusion, our findings indicate that primordial germ cells isolated from embryonic blood can migrate to the germinal ridges of recipient embryos after being transferred to stage X blastoderms. Although these transferred primordial germ cells differentiated into germ cells, no differentiation into blood cells was observed.
British Poultry Science 01/2005; 45(6):762-8. · 1.00 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: 1. In order to introduce exogenous DNA into gonads of chick embryos, stage X blastoderms of freshly laid and unincubated eggs were transfected by lipofection and electroporation in vivo. 2. The introduced DNA, green fluorescence protein (GFP) gene, was efficiently expressed in the blastoderms incubated for 24 h (78.8%, 78/99). 3. The GFP gene was present in most of the embryonic bodies and extra-embryonic membranes died by d 10 of incubation, when analysed by polymerase chain reaction. On d 16 to 20 of incubation, the GFP gene was detected in 7.0 to 20.9% of embryos in the heart, liver, stomach and brain, but not in the sartorius muscle. For the gonads, the GFP gene was detected in 22.2% (6/27) of the testes and 6.3% (1/18) of the ovaries examined. 4. These results suggest that it is possible to introduce exogenous DNA into gonads of chick embryos by lipofection and electroporation of stage X blastoderms in vivo.
British Poultry Science 04/2003; 44(1):36-9. · 1.00 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: A cDNA encoding the porcine type 1 insulin-like growth factor receptor (IGF1R) was amplified by reverse transcriptase-polymerase chain reaction (RT-PCR). The sequence of a 4.2-kb product was determined and had an open reading frame, encoding 1367 amino acids with 98.1 and 95.2% sequence similarity to the human and rat IGF1R, respectively. In the comparison of RT-PCR derived IGF1R sequences from 12 unrelated pigs, 12 silent sequence variants were found.
Animal Genetics 01/2002; 32(6):386-9. · 2.40 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: This study was performed to determine the distribution of primordial germ cells and their precursors in stage X blastoderm of chickens. The blastoderm (Barred Plymouth Rock chickens) isolated from the yolk was separated into three portions: the central disc, the marginal zone and the area opaca. The dissociated blastodermal cells derived from the central disc, marginal zone and area opaca were transferred into a recipient blastoderm (White Leghorn chicken) from which a cell cluster was removed from the centre of the central disc. The manipulated embryos were cultured in host eggshells until hatching. The chicks were raised until sexual maturity and test mated with Barred Plymouth Rock chickens to assess the donor cell contribution to the recipient germline. Germline chimaeric chickens were produced efficiently (46.7%, 7/15) when the blastodermal cells derived from the central disc were transferred into recipient embryos of the same sex, whereas no germline chimaeric chickens were produced when the blastodermal cells derived from the marginal zone or area opaca were transferred into recipient embryos of the same sex (0/12). Germline chimaeric chickens were also produced by transfer of blastodermal cells derived from the central disc (6.7%, 1/15), marginal zone (10.0%, 1/10) or area opaca (11.1%, 1/9) into recipient embryos of the opposite sex. It is concluded that primordial germ cells are induced during or shortly after stage X and that the cells derived from the central disc have the highest potential to give rise to germ cells. Cells derived from the marginal zone and area opaca can also give rise to germ cells, although the frequency is low.
Reproduction (Cambridge, England) 05/2001; 121(4):547-52. · 3.09 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: This study was carried out to elucidate whether primordial germ cells, obtained from embryonic blood and transferred into partially sterilized male and female recipient embryos, could differentiate into functional gametes and give rise to viable offspring. Manipulated embryos were cultured until hatching and the chicks were raised until maturity, when they were mated. When the sex of the donor primordial germ cells and the recipient embryo was the same, 15 out of 22 male chimaeric chickens (68.2%) and 10 out of 16 female chimaeric chickens (62.5%) produced donor-derived offspring. When the sex of the donor primordial germ cells and the recipient embryo was different, 4 out of 18 male chimaeric chickens (22.2%) and 2 out of 18 female chimaeric chickens (11.1%) produced donor-derived offspring. The rates of donor-derived offspring from the chimaeric chickens were 0.6-40.0% in male donor and male recipient and 0.4-34.9% in female donor and female recipient. However, the rates of donor-derived offspring from the chimaeric chickens were 0.4-0.9% in male donor and female recipient and 0.1-0.3% in female donor and male recipient. The presence of W chromosome-specific repeating sequences was detected in the sperm samples of male chimaeric chickens produced by transfer of female primordial germ cells. These results indicate that primordial germ cells isolated from embryonic blood can differentiate into functional gametes giving rise to viable offspring in the gonads of opposite-sex recipient embryos and chickens, although the efficiency was very low.
J Reprod Fertil 12/1999; 117(2):291-8.
-
[show abstract]
[hide abstract]
ABSTRACT: A novel system has been developed to determine the origin and development of primordial germ cells (PGCs) in avian embryos directly. Approximately 700 cells were removed from the center of the area pellucida, the outer of the area pellucida, and the area opaca of the stage X blastoderm (Eyal-Giladi and Kochav, 1976; Dev Biol 49:321-337). When the cells were removed from the center of the area pellucida, the mean number of circulating PGCs per 1 microliter of blood was significantly decreased to 13 (P < 0.05) in the embryo at stage 15 (Hamburger and Hamilton, 1951: J Morphol 88:49-92) as compared to intact embryos of 51. When the removed recipient cells from the center of the area pellucida were replenished with 500 donor cells, no reduction in the PGC number was observed. The removal of cells from the outer of area pellucida or from the area opaca had no effect on the number of PGCs. When another set of the manipulated embryos were cultured ex vivo to hatching and reared to sexual maturity, the absence of germ cells and the degeneration of seminiferous tubules were observed in resulting chickens derived from the blastoderm from which the cells were removed from the center of the area pellucida. Chimeric embryos produced by the male donor cells and the female recipient contained the female-derived cells at 97.2% in the whole embryo and 94.3% in the erythrocytes at 5 days of incubation. At 5-7 days of incubation, masculinization was observed in about one half of the mixed-sex embryos. The proportions of the female-derived cells in the whole embryo and in the erythrocytes were 76.5% and 80.2% at 7 days to 55.7% and 62.5% at 10 days of incubation, respectively. When the chimeras reached their sexual maturity, they were test mated to assess donor contribution to their germline. Five of six male chimeras (83%) and three of five female chimeras (60%) from male donor cells and a female recipient embryo from which 700 cells at the center of area pellucida were removed were germline chimeras. Three of the five male germline chimeras (60%) and one of the three female germline chimeras (33%) transmitted exclusively (100%) donor-derived gametes into the offspring. When embryonic cells were removed from the outer of area pellucida or area opaca, regardless of the sex combination of the donor and the recipient, the transmission of the donor-derived gametes was essentially null. The findings in the present studies demonstrated, both in vivo and in vitro, that the PGCs originate in the central part of the area pellucida and that the developmental fate to germ cell (PGCs) had been destined at stage X blastoderm in chickens.
Molecular Reproduction and Development 12/1997; 48(4):501-10. · 2.53 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Of 310 random cosmid clones, 216 were positive for PRE-1 sequences by Southern hybridization. Thirty nine sub-fragments positive for the PRE-1 sequences were cloned from independent cosmid clones, and sequenced, with 17 complete PRE-1 elements found. Seven PRE-1 loci were amplified by polymerase chain reaction using genomic DNA of 12 unrelated pigs as template. The amplified fragments were then subjected to an analysis of single strand conformation polymorphism, with all the loci being polymorphic.
Animal Genetics 01/1996; 26(6):403-6. · 2.40 Impact Factor
-
Hereditas 02/1994; 121(2):203-5. · 0.79 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Primordial germ cells (PGCs) are progenitor cells of ova and spermatozoa. They appear in the centre of the area pellucida at stage X, and circulate in the bloodstream before migrating to the germinal ridges. In order to introduce exogenous DNA into the germline of chickens, in vivo transfection of circulating PGCs was attempted. DNA-liposome complex was injected into the bloodstream of embryos at stages 14-15, and the manipulated embryos were cultured up to 20.5 days of incubation. GFP gene expression was analysed in the gonads of developing embryos. When circular plasmid was introduced, GFP gene was efficiently expressed in the gonads of embryos, especially up to 10.5 days of incubation. Thereafter, the GFP gene expression decreased gradually, but GFP gene expression was still observed in the gonads of embryos at 20.5 days of incubation. When linearised plasmid was introduced, GFP gene expression was not observed in the gonads of embryos at 20.5 days of incubation except for two (0.45%) embryos. In these two embryos, strong GFP gene expression was observed in a limited area of the left ovary and the left testis. PCR analysis of the gonads of manipulated embryos showed that GFP gene introduced into the PGCs was gradually lost, and most of it by the hatching stage. Nevertheless, GFP gene was still detectable at a very low frequency in some of the gonads of embryos at 20.5 days of incubation. These results suggest that it is possible to introduce exogenous DNA into gonadal germ cells by transfecting circulating PGCs in vivo.
