DNA cytosine methyltransferases differentially regulate genome-wide hypermutation and interhomolog recombination in Trichoderma reesei meiosis.

IF 16.6 2区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Nucleic Acids Research Pub Date : 2024-09-09 DOI:10.1093/nar/gkae611

Lavernchy Jovanska, I-Chen Lin, Jhong-Syuan Yao, Chia-Ling Chen, Hou-Cheng Liu, Wan-Chen Li, Yu-Chien Chuang, Chi-Ning Chuang, Albert Chen-Hsin Yu, Hsin-Nan Lin, Wen-Li Pong, Chang-I Yu, Ching-Yuan Su, Yi-Ping Chen, Ruey-Shyang Chen, Yi-Ping Hsueh, Hanna S Yuan, Ljudmilla Timofejeva, Ting-Fang Wang

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引用次数: 0

Abstract

Trichoderma reesei is an economically important enzyme producer with several unique meiotic features. spo11, the initiator of meiotic double-strand breaks (DSBs) in most sexual eukaryotes, is dispensable for T. reesei meiosis. T. reesei lacks the meiosis-specific recombinase Dmc1. Rad51 and Sae2, the activator of the Mre11 endonuclease complex, promote DSB repair and chromosome synapsis in wild-type and spo11Δ meiosis. DNA methyltransferases (DNMTs) perform multiple tasks in meiosis. Three DNMT genes (rid1, dim2 and dimX) differentially regulate genome-wide cytosine methylation and C:G-to-T:A hypermutations in different chromosomal regions. We have identified two types of DSBs: type I DSBs require spo11 or rid1 for initiation, whereas type II DSBs do not rely on spo11 and rid1 for initiation. rid1 (but not dim2) is essential for Rad51-mediated DSB repair and normal meiosis. rid1 and rad51 exhibit a locus heterogeneity (LH) relationship, in which LH-associated proteins often regulate interconnectivity in protein interaction networks. This LH relationship can be suppressed by deleting dim2 in a haploid rid1Δ (but not rad51Δ) parental strain, indicating that dim2 and rid1 share a redundant function that acts earlier than rad51 during early meiosis. In conclusion, our studies provide the first evidence of the involvement of DNMTs during meiotic initiation and recombination.

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DNA胞嘧啶甲基转移酶对毛霉菌减数分裂过程中的全基因组高突变和同源体间重组具有不同的调控作用。

Spo11是大多数有性真核生物减数分裂双链断裂（DSB）的启动器，但对T. reesei减数分裂来说是不可或缺的。雷希氏菌缺乏减数分裂特异性重组酶 Dmc1。在野生型和 spo11Δ 的减数分裂过程中，Rad51 和 Mre11 内切酶复合物的激活剂 Sae2 可促进 DSB 修复和染色体突触。DNA 甲基转移酶（DNMTs）在减数分裂过程中执行多种任务。三个 DNMT 基因（rid1、dim2 和 dimX）对不同染色体区域的全基因组胞嘧啶甲基化和 C:G-to-T:A 高突变进行不同的调控。我们发现了两种类型的 DSB：I 型 DSB 需要 spo11 或 rid1 来启动，而 II 型 DSB 则不依赖 spo11 和 rid1 来启动。rid1（而不是 dim2）对于 Rad51 介导的 DSB 修复和正常减数分裂至关重要。在单倍体rid1Δ（而非rad51Δ）亲本株中删除dim2可抑制这种LH关系，这表明dim2和rid1共享一种冗余功能，在减数分裂早期比rad51更早发挥作用。总之，我们的研究首次证明了减数分裂启动和重组过程中 DNMTs 的参与。

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

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.

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