Production of inter-genus somatic nuclear transferred gonadal germ cells (snt-GGCs) in avian species

Interspecies or even inter-genus somatic nuclear transfer is considered to be an effective means for conserving a wide variety of avian genetic resources. However, somatic nuclear transfer offspring production is currently limited to mammals. Therefore, the present experiment was designed in an atte...

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Published inThe Journal of Poultry Science Vol. 45; no. 2; pp. 143 - 146
Main Authors Ishiguro, S.(Tsukuba Univ., Ibaraki (Japan)), Kanai, Y, Tajima, A
Format Journal Article
LanguageEnglish
Published Ibaraki Japan Poultry Science Association 01.04.2008
Japan Science and Technology Agency
Subjects
CAILLE
chicken
CHICKENS
CODORNIZ
electrofusion
EMBRION SOMATICO
EMBRYON SOMATIQUE
GAMETE
GAMETES
GAMETOS
GENETIC RESOURCES
GENITALIA
gonadal germ cells
HIBRIDACION INTERGENERICA
HYBRIDATION INTERGENERIQUE
INTERGENERIC HYBRIDIZATION
OPERACIONES QUIRURGICAS
OPERATION CHIRURGICALE
POLLO
POULET
quail
QUAILS
RECURSOS GENETICOS
RESSOURCE GENETIQUE
SOMATIC EMBRYOS
somatic nuclear transfer
SURGICAL OPERATIONS
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Summary:Interspecies or even inter-genus somatic nuclear transfer is considered to be an effective means for conserving a wide variety of avian genetic resources. However, somatic nuclear transfer offspring production is currently limited to mammals. Therefore, the present experiment was designed in an attempt to produce inter-genus somatic nuclear transferred gonadal germ cells (snt-GGCs) between chicken and quail. Electrofusion was carried out between embryonic blood cells (EBCs) collected from 4-day-old embryos (donor cells) and gonadal germ cells (GGCs) from 7-day-old chick embryos or 6-day-old quail embryos (recipient cells). GGCs were labeled with PKH26 fluorescent dye as a marker. Electrofusion was carried out according to previously described methods. The combinations of donor-recipient cells were designed to contain all four possible combinations: E(c)-G(c), E(q)-G(q), E(q)-G(c) and E(c)-G(q), where E, G, c and q are abbreviations for EBCs, GGCs, chick and quail, respectively. Following electrofusion, the fusion solution containing cells were stained with 1 microg/mL Hoechst 33342. PKH26-labeled cells with two or more nuclei of different sizes were determined to be snt-GGCs. The experiment was replicated ten times and snt-GGCs were observed in five (50%), three (30%), four (40%) and five (50%) replicates. The average number of snt-GGCs produced per replicate were 0.6 (1.2%), 0.3 (0.6%), 0.5 (1.0%) and 0.5 (1.0%) for E(c)-G(c), E(q)-G(q), E(q)-G(c) and E(c)-G(q), respectively. The present results demonstrate that inter-genus snt-GGCs can be produced by electrofusion using EBCs and GGCs in avian species.
Bibliography:2008007979
L53
ISSN:1346-7395
1349-0486
DOI:10.2141/jpsa.45.143