Takashi Harumi scite author profile

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.

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The developmental origin of primordial germ cells and the transmission of the donor-derived gametes in mixed-sex germline chimeras to the offspring in the chicken

Kono

et al. 1997

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Long-term culture of chicken primordial germ cells isolated from embryonic blood and production of germline chimaeric chickens

Naito

Harumi

Kuwana³

2015

Animal Reproduction Science

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Differentiation of female primordial germ cells in the male testes of chicken (Gallus gallus domesticus)

Tagami

Kono

Matsubara

et al. 2006

Molecular Reproduction Devel

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In our previous studies, we demonstrated that female primordial germ cells (PGCs) have the ability to differentiate into W chromosome-bearing (W-bearing) spermatozoa in male gonads of germline chimeric chickens. In this study, to investigate the differentiation pattern of female PGCs in male gonads in chickens, three germline chimeric chickens were generated by injecting female PGCs into the male recipient embryos. After these male chimeras reached sexual maturity, the semen samples were analyzed for detecting W-bearing cells by PCR and in situ hybridization analyses. The results indicated that the female PGCs had settled and differentiated in their testes. A histological analysis of the seminiferous tubule in those chimeras demonstrated that the W-bearing spermatogonia, spermatocytes, and round spermatids accounted for 30.8%, 32.7%, and 28.4%, respectively. However, the W-bearing elongating spermatid was markedly lower (7.7%) as compared to the W-bearing round spermatid. The W-bearing spermatozoa were hardly ever observed (0.2%). We concluded that although female PGCs in male gonads are capable of passing through the first and second meiotic division in adapting themselves to a male environment, they are hardly complete spermiogenesis.

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Polymerase chain reaction detection of single nucleotide polymorphisms in the chicken mitochondrial D‐loop region

Harumi

Sano

Kono

et al. 2004

Animal Science Journal

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The D-loop region in mitochondrial DNA (mtDNA) was sequenced and compared among six chickens. Eleven single nucleotide polymorphisms (SNP) were observed. For six of the SNP sites, polymerase chain reaction (PCR) primers that had each base (A, C, G and T) as the penultimate base at the 3 ¢ end (N2 base) and bases specific to both alleles at the 3 ¢ end were produced to type the polymorphisms. Twenty-one out of 96 primers succeeded in distinguishing the SNP by the presence or absence of PCR product. This method provides an easy way to discriminate SNP in chicken mtDNA.

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Long Term in vitro Culture of Chicken Primordial Germ Cells Isolated from Embryonic Blood and Incorporation into Germline of Recipient Embryo

2010

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The present study was carried out to develop a long-term culture system for chicken primordial germ cells (PGCs). PGCs were obtained from the blood of .-day incubated embryos. GFP gene was transferred into the collected PGCs and then cultured on feeder cells derived from the gonads of-day incubated embryos. The GFP-positive cells attached loosely to the feeder cells, and their morphology varied from round to fibroblast-like in shape. They proliferated slowly and occasionally formed colonies. The PGCs cultured for days were transferred into the bloodstream of recipient embryos, and we examined their incorporation into the germline of chimaeric chickens. Test mating was carried out, and one germline chimaeric chicken was detected out of putative chimaeric chickens. That one chicken was generated by transferring-day cultured PGCs and it produced one donor-derived o spring out of examined. Thus, a small percentage of the cultured PGCs retained the ability to migrate to the germinal ridges, thus giving rise to functional gametes, although most of the cultured PGCs di erentiated during the culture period. In conclusion, a germline chimaeric chicken was generated by transferring PGCs cultured for about months; the culture system for PGCs developed in the present study will contribute to the germline manipulation in chickens. : chicken, culture, embryo, germline chimaera, primordial germ cell the risk of a cross-transfer of animal pathogens from other animal cells. It is, therefore, recommended to use chicken cells as feeder cells for culturing chicken PGCs. Chicken PGCs isolated from embryonic blood could be

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Testicular and ovarian gonocytes from 20-day incubated chicken embryos contribute to germline lineage after transfer into bloodstream of recipient embryos

Naito¹,

Minematsu²,

Harumi³

et al. 2007

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The present study was conducted to elucidate whether testicular and ovarian gonocytes obtained from 20-day incubated chicken embryos (stage 45) have the ability to migrate to the germinal ridges and contribute to germline lineage after transfer into the bloodstream of recipient embryos. Testicular and ovarian gonocytes were first identified as relatively large cells in a population of gonadal cells. The proportions of testicular and ovarian gonocytes in the total gonadal cells were 0.94 and 0.75% respectively, recognised as chicken vasa homologue-positive cells. Then, the dissociated gonadal cells obtained from 20-day incubated embryos containing testicular or ovarian gonocytes, with or without transfection, were transferred into recipient embryos. Expression of the introduced GFP gene was observed in the gonads of 6.5-day cultured recipient embryos (stage 30) in males and females, suggesting that the transferred testicular and ovarian gonocytes have the ability to migrate to the germinal ridges and enter the gonads. Furthermore, the presence of the donor-derived DNA was detected in the gonads of 20-day cultured recipient embryos in males and females, and also in the sperm samples obtained from the hatched male putative chimaeric chickens, suggesting that the transferred testicular and ovarian gonocytes were incorporated into the germline of chimaeric embryos and chickens. It is concluded that testicular and ovarian gonocytes obtained from 20-day incubated embryos have the ability to migrate to the germinal ridges after transfer into the bloodstream of recipient embryos, enter the gonads and contribute to the germline lineage of chimaeric embryos and chickens.

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Migration of primordial germ cells isolated from embryonic blood into the gonads after transfer to stage X blastoderms and detection of germline chimaerism by PCR

Naito

Sano²,

Harumi³

et al. 2004

Br. Poultry Sc.

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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.

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Takashi Harumi

Differentiation of donor primordial germ cells into functional gametes in the gonads of mixed-sex germline chimaeric chickens produced by transfer of primordial germ cells isolated from embryonic blood

The developmental origin of primordial germ cells and the transmission of the donor-derived gametes in mixed-sex germline chimeras to the offspring in the chicken

Long-term culture of chicken primordial germ cells isolated from embryonic blood and production of germline chimaeric chickens

Differentiation of female primordial germ cells in the male testes of chicken (Gallus gallus domesticus)

Polymerase chain reaction detection of single nucleotide polymorphisms in the chicken mitochondrial D‐loop region

Long Term in vitro Culture of Chicken Primordial Germ Cells Isolated from Embryonic Blood and Incorporation into Germline of Recipient Embryo

Testicular and ovarian gonocytes from 20-day incubated chicken embryos contribute to germline lineage after transfer into bloodstream of recipient embryos

Migration of primordial germ cells isolated from embryonic blood into the gonads after transfer to stage X blastoderms and detection of germline chimaerism by PCR

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