用于DNA生成和基因组编辑的反转录子的实验性普查。

An experimental census of retrons for DNA production and genome editing.

作者信息

Khan Asim G, Rojas-Montero Matías, González-Delgado Alejandro, Lopez Santiago C, Fang Rebecca F, Crawford Kate D, Shipman Seth L

机构信息

Gladstone Institute of Data Science and Biotechnology, San Francisco, CA, USA.

Graduate Program in Bioengineering, University of California, San Francisco, San Francisco and University of California, Berkeley, Berkeley, CA, USA.

出版信息

Nat Biotechnol. 2024 Sep 17. doi: 10.1038/s41587-024-02384-z.

DOI:10.1038/s41587-024-02384-z

PMID:39289529

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11911249/

Abstract

Retrons are bacterial immune systems that use reverse-transcribed DNA (RT-DNA) to detect phage infection. They are also deployed for genome editing, where they are modified so that the RT-DNA encodes an editing donor. Retrons are common in bacterial genomes, and thousands of unique retrons have been predicted bioinformatically. However, few have been characterized experimentally. We add to the corpus of experimentally studied retrons, finding 62 empirically determined, natural RT-DNAs that are not predictable from the retron sequence alone. We synthesize >100 previously untested retrons to identify the natural sequence of RT-DNA they produce, quantify their RT-DNA production and test the relative efficacy of editing using retron-derived donors to edit bacterial, phage and human genomes. We observe large diversity in RT-DNA production and editing rates across retrons, finding that top-performing editors are drawn from a subset of the retron phylogeny and outperform those used in previous studies, reaching precise editing rates of up to 40% in human cells.

摘要

反转录子是细菌的免疫系统，利用逆转录DNA（RT-DNA）来检测噬菌体感染。它们也被用于基因组编辑，在基因组编辑中，它们被改造，使得RT-DNA编码一个编辑供体。反转录子在细菌基因组中很常见，通过生物信息学预测已经发现了数千种独特的反转录子。然而，通过实验表征的却很少。我们增加了经过实验研究的反转录子的样本，发现了62个凭经验确定的天然RT-DNA，仅从反转录子序列本身无法预测它们。我们合成了100多种以前未经测试的反转录子，以确定它们产生的RT-DNA的天然序列，量化它们的RT-DNA产量，并测试使用反转录子衍生的供体编辑细菌、噬菌体和人类基因组的相对效率。我们观察到不同反转录子的RT-DNA产量和编辑率存在很大差异，发现表现最佳的编辑器来自反转录子系统发育的一个子集，并且优于以前研究中使用的编辑器，在人类细胞中的精确编辑率高达40%。

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