Flp 切口酶切割的复制叉处的双向重组。

Two-ended recombination at a Flp-nickase-broken replication fork.

作者信息

Elango Rajula, Nilavar Namrata M, Li Andrew G, Nguyen Daniel, Rass Emilie, Duffey Erin E, Jiang Yuning, Abakir Abdulkadir, Willis Nicholas A, Houseley Jonathan, Scully Ralph

机构信息

Department of Medicine, Division of Hematology-Oncology and Cancer Research Institute, Beth Israel Deaconess Medical Center and Harvard Medical School, Boston, MA 02215, USA.

The Babraham Institute, Babraham Research Campus, Cambridge CB22 3AT, UK.

出版信息

Mol Cell. 2025 Jan 2;85(1):78-90.e3. doi: 10.1016/j.molcel.2024.11.006. Epub 2024 Dec 3.

DOI:10.1016/j.molcel.2024.11.006

PMID:39631396

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11733529/

Abstract

Replication fork collision with a DNA nick can generate a one-ended break, fostering genomic instability. The opposing fork's collision with the nick could form a second DNA end, enabling conservative repair by homologous recombination (HR). To study mechanisms of nickase-induced HR, we developed the Flp recombinase "step arrest" nickase in mammalian cells. A Flp-nick induces two-ended, BRCA2/RAD51-dependent short tract gene conversion (STGC), BRCA2/RAD51-independent long tract gene conversion, and discoordinated two-ended invasions. HR pathways induced by a replication-independent break and the Flp-nickase differ in their dependence on BRCA1, MRE11, and CtIP. To determine the origin of the second DNA end during Flp-nickase-induced STGC, we blocked the opposing fork using a Tus/Ter replication fork barrier (RFB). Flp-nickase-induced STGC remained robust and two ended. Thus, a single replication fork's collision with a Flp-nick triggers two-ended HR, possibly reflecting replicative bypass of lagging strand nicks. This response may limit genomic instability during replication of nicked DNA.

摘要

复制叉与DNA切口碰撞可产生单端断裂，促进基因组不稳定。相对的复制叉与切口碰撞可形成第二个DNA末端，从而通过同源重组（HR）进行保守修复。为了研究切口酶诱导的HR机制，我们在哺乳动物细胞中开发了Flp重组酶“阶梯式阻滞”切口酶。Flp切口诱导双端、依赖BRCA2/RAD51的短片段基因转换（STGC）、不依赖BRCA2/RAD51的长片段基因转换以及不协调的双端侵入。由复制非依赖性断裂和Flp切口酶诱导的HR途径在对BRCA1、MRE11和CtIP的依赖性方面有所不同。为了确定Flp切口酶诱导的STGC过程中第二个DNA末端的来源，我们使用Tus/Ter复制叉屏障（RFB）阻断相对的复制叉。Flp切口酶诱导的STGC仍然强劲且为双端。因此，单个复制叉与Flp切口的碰撞触发双端HR，这可能反映了滞后链切口的复制性绕过。这种反应可能会限制带切口DNA复制过程中的基因组不稳定。

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