摘要:
Mitochondria are vital organelles responsible for driving cellular energy metabolism and regulating key biological processes. Their circular mitochondrial DNA (mtDNA) encodes 13 subunits of the respiratory chain proteins but is susceptible to mutations due to high levels of reactive oxygen species and limited repair mechanisms. Mutant phenotypes manifest only when heteroplasmy surpasses a critical threshold. Understanding the consequences of mtDNA mutations has long been hampered by the lack of precise editing tools. Recently, CRISPR-free, protein-only mitochondrial base editors have enabled C·G-to-T·A and A·T-to-G·C transitions. These breakthroughs facilitate the creation of relevant disease models and offer unique opportunities for animal breeding, as specific mtDNA variants are known to influence economically important traits in livestock, including production, reproduction, and stress tolerance. This review summarizes recent advances in mitochondrial genome editing technologies, including CRISPR/Cas-based systems, restriction endonucleases, double-stranded DNA deaminase toxin A (DddA)-based cytosine and adenine base editors, and DddA-free base editors, along with their delivery strategies and optimization avenues. Furthermore, we outline the associations between mtDNA polymorphisms, copy number variation, and economic traits in livestock and poultry. Finally, we discuss the potential applications of mitochondrial genome editing in animal breeding and highlight the critical safety and ethical considerations that require careful attention.
Abstract:
Mitochondria are vital organelles responsible for driving cellular energy metabolism and regulating key biological processes. Their circular mitochondrial DNA (mtDNA) encodes 13 subunits of the respiratory chain proteins but is susceptible to mutations due to high levels of reactive oxygen species and limited repair mechanisms. Mutant phenotypes manifest only when heteroplasmy surpasses a critical threshold. Understanding the consequences of mtDNA mutations has long been hampered by the lack of precise editing tools. Recently, CRISPR-free, protein-only mitochondrial base editors have enabled C·G-to-T·A and A·T-to-G·C transitions. These breakthroughs facilitate the creation of relevant disease models and offer unique opportunities for animal breeding, as specific mtDNA variants are known to influence economically important traits in livestock, including production, reproduction, and stress tolerance. This review summarizes recent advances in mitochondrial genome editing technologies, including CRISPR/Cas-based systems, restriction endonucleases, double-stranded DNA deaminase toxin A (DddA)-based cytosine and adenine base editors, and DddA-free base editors, along with their delivery strategies and optimization avenues. Furthermore, we outline the associations between mtDNA polymorphisms, copy number variation, and economic traits in livestock and poultry. Finally, we discuss the potential applications of mitochondrial genome editing in animal breeding and highlight the critical safety and ethical considerations that require careful attention.
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