Article Synopsis
- Imprinting abnormalities in embryonic stem cells and cloning create significant challenges due to their complexity and variability, with no universal correction methods available.
- This study focused on correcting these defects in bi-paternal mouse embryos by introducing genetic edits at 20 key imprinted loci, resulting in the development of adult animals with a low survival rate.
- The results highlight that imprinting defects hinder unisexual reproduction in mammals and suggest potential improvements in embryonic stem cell development and cloning, paving the way for advancements in regenerative medicine.
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Article Abstract
Imprinting abnormalities pose a significant challenge in applications involving embryonic stem cells, induced pluripotent stem cells, and animal cloning, with no universal correction method owing to their complexity and stochastic nature. In this study, we targeted these defects at their source-embryos from same-sex parents-aiming to establish a stable, maintainable imprinting pattern de novo in mammalian cells. Using bi-paternal mouse embryos, which exhibit severe imprinting defects and are typically non-viable, we introduced frameshift mutations, gene deletions, and regulatory edits at 20 key imprinted loci, ultimately achieving the development of fully adult animals, albeit with a relatively low survival rate. The findings provide strong evidence that imprinting abnormalities are a primary barrier to unisexual reproduction in mammals. Moreover, this approach can significantly improve developmental outcomes for embryonic stem cells and cloned animals, opening promising avenues for advancements in regenerative medicine.
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| http://dx.doi.org/10.1016/j.stem.2025.01.005 | DOI Listing |
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