Soo-Young Yum, Bae Young Choi, Gyeong-Min Gim, Kyeong-Hyeon Eom, Seong-Beom Lee, Daehyun Kim, Euntaek Lim, Do-Yoon Kim, Seong-Eun Heo, Donghwan Shim, Goo Jang
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引用次数: 0
Abstract
The production of transgenic animals using non-viral methods has raised questions regarding their long-term health and genomic stability. In this study, we evaluated these aspects in transgenic cattle over ten years, using transposon-mediated gene transfer. Our longitudinal analysis included a comprehensive health assessment and whole-genome DNA resequencing. We found no significant alterations in physiological parameters or health complications in transposon-mediated transgenic cattle that exceeded 10 years of age. Genomic analysis revealed that the rates of somatic mutations and copy number variations in transgenic cattle were comparable to those in non-transgenic cattle. Furthermore, structural variants were infrequent, suggesting that transposon-mediated gene insertion did not compromise genomic integrity. These findings highlight the viability of transposon systems for generating transgenic livestock, potentially expanding their applications in agriculture and biotechnology. This study contributes significantly to our understanding of the long-term implications of transgenesis in large animals and supports the safety and stability of this method.
使用非病毒方法生产转基因动物引发了有关其长期健康和基因组稳定性的问题。在这项研究中,我们利用转座子介导的基因转移技术,对转基因牛十年来的这些方面进行了评估。我们的纵向分析包括全面的健康评估和全基因组 DNA 重测序。我们发现,转座子介导的转基因牛在超过 10 岁后,生理参数或健康并发症没有发生明显变化。基因组分析表明,转基因牛的体细胞突变率和拷贝数变异率与非转基因牛相当。此外,结构变异也不常见,这表明转座子介导的基因插入不会损害基因组的完整性。这些发现凸显了转座子系统在产生转基因家畜方面的可行性,有可能扩大其在农业和生物技术领域的应用。这项研究大大有助于我们了解转基因对大型动物的长期影响,并支持这种方法的安全性和稳定性。
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