Aim:To examine the transfection of exogenous genes into chick embryos,applying the characteristics of avianleukosis vires(ALV)-induced chicken B cell line DT40 to the production of chimeric birds.Methods:The DT40cells...Aim:To examine the transfection of exogenous genes into chick embryos,applying the characteristics of avianleukosis vires(ALV)-induced chicken B cell line DT40 to the production of chimeric birds.Methods:The DT40cells incorporated with exogenous gene(lacZ constructs encoding Escherichia coliβ-galactosidase:β-gal)were intro-duced into chick embryos by the injection of cells into stage X blastoderm.Manipulated eggs were incubated for 3(trial1)or 6(trial 2)days,and the expression of lacZ DNA was detected by a histochemical staining method ofβ-galactosi-dase and polymerase chain reaction(PCR)analysis.Results:The survival rates of the manipulated embryos incu-bated for 3 days(stage 18-20:trial 1)and 6 days(stage 28,30:trial 2)were about 42%and 38%,respectively.The expression rates of the lacZ gene in the embryos in the trials 1 and 2 were about 60%and 23%,respectively,forthe survived embryos.Conclusion:The rate of embryonic viability and expression rate of introduced genes were notso high,but it suggested the possibility of utilizing the DT40 cells as a vector for carrying exogenous genes into chickembryos.展开更多
Aim: This study was designed to investigate the effect of busulfan treatment on the proliferation of chicken primordialgerm cells (PGCs) in vivo, focusing on the preferential settlement of PGCs onto the germinal ridge...Aim: This study was designed to investigate the effect of busulfan treatment on the proliferation of chicken primordialgerm cells (PGCs) in vivo, focusing on the preferential settlement of PGCs onto the germinal ridges of chicken em-bryos. Methods: Busulfan (250 ng/egg) was injected into the egg white of freshly oviposited fertilized eggs, whichwere then incubated. Embryonic development and viability were examined, and exogenous PGCs collected from embry-onic blood vessels were injected into the germinal crescent region of recipient embryos. The number of PGCs residedonto germinal ridges of the right and left sides were compared. Results: Busulfan had a slight harmful effect on theembryo viability and the PGCs proliferation. The number of PGCs resided onto the left side of germinal ridges wasslightly higher as compared with the right side. Conclusion: Busulfan suppressed the viability of embryos and the pro-liferation of endogenous PGCs in the recipient embryos. However, the number of exogenous PGCs proliferated washigher in embryos treated with busulfan than those without busulfan. Data also suggest the possibility of a preferentialresidence of PGCs toward the left side of the germinal crescent region as compared with the fight, which may be due toa more advanced functional development of the left gonad than the right. (Asian J Androl 1999 Dec; 1: 187-190)展开更多
An exogenous gene (lacZ/MiwZ) introduced into the germinal crescent region (GCR) of avian embryos was con-firmed to be successfully transferred to the gonads via the primordial germ cells (PGCs). Following hatching, t...An exogenous gene (lacZ/MiwZ) introduced into the germinal crescent region (GCR) of avian embryos was con-firmed to be successfully transferred to the gonads via the primordial germ cells (PGCs). Following hatching, the chickswere raised until the stage of sexual maturation. The incorporation of MiwZ DNA was detected in male and female trans-genic chickens, respectively. The normal male and female transgenic birds were subjected to artificial insemination ac-cording to routine methods. Fertilized eggs obtained from female transgenic chickens were incubated for 72 h and the em-bryos removed from the yolk were examined by X-gal staining to detect the introduction of MiwZ in the offspring. As aresult, the expression of MiwZ was detected in the offspring. Furthermore, the presence of MiwZ in the extracts fromembryos was also detected by polymerase chain reaction (PCR) analysis. In male transgenic chickens, the presence of in-jected MiwZ in the extracts from sperm was also confirmed. The exogenous gene introduced into the GCR migrated suc-cessfully to the gonad resulting in its incorporation into the offspring and spermatozoa of transgenic chickens. (Asian JAndrol 1999 Sep ; 1: 139 - 144)展开更多
基金financially supported by the Ministry of Education,Science and Culture,Japanthe Society for the Promotion of Science(JSPS)+1 种基金the Sumitomo Foundationthe Nissan Science Foundation
文摘Aim:To examine the transfection of exogenous genes into chick embryos,applying the characteristics of avianleukosis vires(ALV)-induced chicken B cell line DT40 to the production of chimeric birds.Methods:The DT40cells incorporated with exogenous gene(lacZ constructs encoding Escherichia coliβ-galactosidase:β-gal)were intro-duced into chick embryos by the injection of cells into stage X blastoderm.Manipulated eggs were incubated for 3(trial1)or 6(trial 2)days,and the expression of lacZ DNA was detected by a histochemical staining method ofβ-galactosi-dase and polymerase chain reaction(PCR)analysis.Results:The survival rates of the manipulated embryos incu-bated for 3 days(stage 18-20:trial 1)and 6 days(stage 28,30:trial 2)were about 42%and 38%,respectively.The expression rates of the lacZ gene in the embryos in the trials 1 and 2 were about 60%and 23%,respectively,forthe survived embryos.Conclusion:The rate of embryonic viability and expression rate of introduced genes were notso high,but it suggested the possibility of utilizing the DT40 cells as a vector for carrying exogenous genes into chickembryos.
文摘Aim: This study was designed to investigate the effect of busulfan treatment on the proliferation of chicken primordialgerm cells (PGCs) in vivo, focusing on the preferential settlement of PGCs onto the germinal ridges of chicken em-bryos. Methods: Busulfan (250 ng/egg) was injected into the egg white of freshly oviposited fertilized eggs, whichwere then incubated. Embryonic development and viability were examined, and exogenous PGCs collected from embry-onic blood vessels were injected into the germinal crescent region of recipient embryos. The number of PGCs residedonto germinal ridges of the right and left sides were compared. Results: Busulfan had a slight harmful effect on theembryo viability and the PGCs proliferation. The number of PGCs resided onto the left side of germinal ridges wasslightly higher as compared with the right side. Conclusion: Busulfan suppressed the viability of embryos and the pro-liferation of endogenous PGCs in the recipient embryos. However, the number of exogenous PGCs proliferated washigher in embryos treated with busulfan than those without busulfan. Data also suggest the possibility of a preferentialresidence of PGCs toward the left side of the germinal crescent region as compared with the fight, which may be due toa more advanced functional development of the left gonad than the right. (Asian J Androl 1999 Dec; 1: 187-190)
文摘An exogenous gene (lacZ/MiwZ) introduced into the germinal crescent region (GCR) of avian embryos was con-firmed to be successfully transferred to the gonads via the primordial germ cells (PGCs). Following hatching, the chickswere raised until the stage of sexual maturation. The incorporation of MiwZ DNA was detected in male and female trans-genic chickens, respectively. The normal male and female transgenic birds were subjected to artificial insemination ac-cording to routine methods. Fertilized eggs obtained from female transgenic chickens were incubated for 72 h and the em-bryos removed from the yolk were examined by X-gal staining to detect the introduction of MiwZ in the offspring. As aresult, the expression of MiwZ was detected in the offspring. Furthermore, the presence of MiwZ in the extracts fromembryos was also detected by polymerase chain reaction (PCR) analysis. In male transgenic chickens, the presence of in-jected MiwZ in the extracts from sperm was also confirmed. The exogenous gene introduced into the GCR migrated suc-cessfully to the gonad resulting in its incorporation into the offspring and spermatozoa of transgenic chickens. (Asian JAndrol 1999 Sep ; 1: 139 - 144)
