重复诱导的点突变和异染色质重复的新型过渡异染色质状态的成核都需要 RID。

IF 16.6 2区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Nucleic Acids Research Pub Date : 2025-03-20 DOI:10.1093/nar/gkaf263

Zhen He, Nannan Wu, Ruonan Yao, Huawei Tan, Yingying Sun, Jingxuan Chen, Lan Xue, Xiaonan Chen, Sihai Yang, Laurence D Hurst, Long Wang, Ju Huang

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引用次数: 0

摘要

为了保持基因组的完整性，重复序列受到异染色质失活的影响，在神经孢子虫中，重复诱导的点突变（RIP）。人们对两者背后的启动因素知之甚少。我们解决了一个矛盾的观察结果，即新引入的重复-链接-重复（R-L-R）结构只需要RID就可以进行RIP，而基因组重复序列在没有RID的情况下就可以进行RIP，这表明eu-和异色重复序列的处理方式不同，后者还需要DIM-2。与旧的和新的重复有关的机制之间的差异提醒人们不要从模型实验系统推断的机制中进行外推。此外，当染色质状态影响RIP时，我们还发现当RID与LexA连接时，RID以依赖于HDA-1的方式从常染色质向异染色质转变。相比之下，组成型异染色质在很大程度上与HDA1无关，并依赖于HDA1的类似物。因此，RID是RIP和向异染色质过渡的双重功能启动物。

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RID is required for both repeat-induced point mutation and nucleation of a novel transitional heterochromatic state for euchromatic repeats.

To maintain genome integrity, repeat sequences are subject to heterochromatin inactivation and, in Neurospora, repeat-induced point mutation (RIP). The initiating factors behind both are poorly understood. We resolve the paradoxical observation that newly introduced Repeat-Linker-Repeat (R-L-R) constructs require RID alone for RIP, while genomic repeats are RIPed in the absence of RID, showing that eu- and hetero- chromatic repeats are handled differently, the latter additionally requiring DIM-2. The differences between mechanisms associated with older and newer duplicates caution against extrapolation from mechanisms inferred from model experimental systems. Additionally, while chromatin status affects RIP, we also show that RID, when tethered with LexA, acts as a nucleation center for the transition from euchromatin to heterochromatin in an HDA-1 dependent fashion. Constitutive heterochromatin by contrast is largely HDA1 independent and depends on HDA-1 paralogs. RID is thus a dual function initiator of both RIP and the transition to heterochromatin.

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来源期刊

Nucleic Acids Research 生物-生化与分子生物学

CiteScore

27.10

自引率

4.70%

发文量

1057

审稿时长

2 months

期刊介绍： Nucleic Acids Research (NAR) is a scientific journal that publishes research on various aspects of nucleic acids and proteins involved in nucleic acid metabolism and interactions. It covers areas such as chemistry and synthetic biology, computational biology, gene regulation, chromatin and epigenetics, genome integrity, repair and replication, genomics, molecular biology, nucleic acid enzymes, RNA, and structural biology. The journal also includes a Survey and Summary section for brief reviews. Additionally, each year, the first issue is dedicated to biological databases, and an issue in July focuses on web-based software resources for the biological community. Nucleic Acids Research is indexed by several services including Abstracts on Hygiene and Communicable Diseases, Animal Breeding Abstracts, Agricultural Engineering Abstracts, Agbiotech News and Information, BIOSIS Previews, CAB Abstracts, and EMBASE.