Strategic targeting of Cas9 nickase expands tandem gene arrays.

IF 11.1 Q1 CELL BIOLOGY Cell genomics Pub Date : 2025-04-09 Epub Date: 2025-03-20 DOI:10.1016/j.xgen.2025.100811

Hiroaki Takesue, Satoshi Okada, Goro Doi, Yuki Sugiyama, Emiko Kusumoto, Takashi Ito

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Abstract

Expanding tandem gene arrays facilitates adaptation through dosage effects and gene family formation via sequence diversification. However, experimental induction of such expansions remains challenging. Here, we introduce a method termed break-induced replication (BIR)-mediated tandem repeat expansion (BITREx) to address this challenge. BITREx places Cas9 nickase adjacent to a tandem gene array to break the replication fork that has just replicated the array, forming a single-ended double-strand break. This break is subsequently end-resected to become single stranded. Since there is no repeat unit downstream of the break, the single-stranded DNA often invades an upstream unit to initiate ectopic BIR, resulting in array expansion. BITREx has successfully expanded gene arrays in budding yeast, with the CUP1 array reaching ∼1 Mb. Furthermore, appropriate splint DNAs allow BITREx to generate tandem arrays de novo from single-copy genes. We have also demonstrated BITREx in mammalian cells. Therefore, BITREx will find various unique applications in genome engineering.

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Cas9缺口酶的战略性靶向扩展串联基因阵列。

扩大串联基因阵列通过剂量效应和基因家族通过序列多样化形成促进适应。然而，这种膨胀的实验诱导仍然具有挑战性。在这里，我们介绍了一种称为断裂诱导复制（BIR）介导的串联重复扩增（BITREx）的方法来解决这一挑战。BITREx将Cas9缺口酶放置在串联基因阵列附近，以破坏刚刚复制该阵列的复制叉，形成单端双链断裂。这个断裂随后被末端切除成为单链。由于断裂下游没有重复单元，单链DNA经常侵入上游单元启动异位BIR，导致阵列扩展。BITREx已经成功地在出芽酵母中扩展了基因阵列，其中CUP1阵列达到了1 Mb。此外，适当的夹板dna允许BITREx从单拷贝基因中重新生成串联阵列。我们还在哺乳动物细胞中展示了BITREx。因此，BITREx将在基因组工程中找到各种独特的应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cell genomics

CiteScore

7.10

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0.00%

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