Piwi 相互作用 RNA 可保护 DNA 在栉毛虫基因组重排过程中不丢失。
Piwi-interacting RNAs protect DNA against loss during Oxytricha genome rearrangement.
机构信息
Department of Molecular Biology, Princeton University, Princeton, NJ 08544, USA.
出版信息
Cell. 2012 Dec 7;151(6):1243-55. doi: 10.1016/j.cell.2012.10.045.
Abstract
Genome duality in ciliated protozoa offers a unique system to showcase their epigenome as a model of inheritance. In Oxytricha, the somatic genome is responsible for vegetative growth, whereas the germline contributes DNA to the next sexual generation. Somatic nuclear development removes all transposons and other so-called "junk" DNA, which comprise ~95% of the germline. We demonstrate that Piwi-interacting small RNAs (piRNAs) from the maternal nucleus can specify genomic regions for retention in this process. Oxytricha piRNAs map primarily to the somatic genome, representing the ~5% of the germline that is retained. Furthermore, injection of synthetic piRNAs corresponding to normally deleted regions leads to their retention in later generations. Our findings highlight small RNAs as powerful transgenerational carriers of epigenetic information for genome programming.
摘要
纤毛原生动物的基因组双重性为展示其表观基因组作为遗传模型提供了一个独特的系统。在Oxytricha 中,体细胞基因组负责营养生长,而生殖系则为下一代的有性生殖提供 DNA。体细胞核发育去除了所有转座子和其他所谓的“垃圾”DNA,这些 DNA 占生殖系的约 95%。我们证明,来自母核的 Piwi 相互作用小 RNA(piRNA)可以指定基因组区域以在这个过程中保留。Oxytricha 的 piRNA 主要映射到体细胞基因组,代表保留的生殖系的约 5%。此外,注射与正常缺失区域相对应的合成 piRNA 会导致它们在后代中保留。我们的研究结果强调了小 RNA 作为基因组编程的表观遗传信息的强大跨代载体。
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