Dppa3 / Pgc7 / stella is a maternal factor and is not required for germ cell specification in mice

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Abstract

Background: In mice, germ cells are specified through signalling between layers of cells comprising the primitive embryo. The function of Dppa3 (also known as Pgc7 or stella), a gene expressed in primordial germ cells at the time of their emergence in gastrulating embryos, is unknown, but a recent study has claimed that it plays a central role in germ cell specification. Results: To test Dppa3's role in germ cell development, we disrupted the gene in mouse embryonic stem cells and generated mutant animals. We were able to obtain viable and fertile Dppa3-deficient animals of both sexes. Examination of embryonic and adult germ cells and gonads in Dppa3-deficient animals did not reveal any defects. However, most embryos derived from Dppa3-deficient oocytes failed to develop normally beyond the four-cell stage. Conclusion: We found that Dppa3 is an important maternal factor in the cleavage stages of mouse embryogenesis. However, it is not required for germ cell specification.

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Bortvin, A., Goodheart, M., Liao, M., & Page, D. C. (2004). Dppa3 / Pgc7 / stella is a maternal factor and is not required for germ cell specification in mice. BMC Developmental Biology, 4, 1–5. https://doi.org/10.1186/1471-213X-4-2

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