拟南芥减数分裂双链断裂修复 DNA 合成道

IF 4 2区 生物学 Q1 GENETICS & HEREDITY PLoS Genetics Pub Date : 2024-07-16 eCollection Date: 2024-07-01 DOI:10.1371/journal.pgen.1011197
Miguel Hernández Sánchez-Rebato, Veit Schubert, Charles I White
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引用次数: 0

摘要

我们在此成功地标记了开花植物拟南芥的减数分裂前期 I DNA 合成。胸苷类似物 EdU 的加入可使程序性减数分裂 DNA 双链断裂(DSB)重组修复的足迹可视化,在减数分裂中期和后期可清楚地看到约 400 个离散的、依赖 SPO11 的、EdU 标记的染色体病灶。这一数字与之前估计的拟南芥每次减数分裂有 200-300 个 DNA 双链断裂相当,证实这种方法能够检测大多数或所有依赖 SPO11 的减数分裂 DSB 修复事件。这些DNA合成灶的染色体分布与早期重组标记和标记I类交叉点的MLH1的染色体分布一致。拟南芥雄性减数分裂过程中大约会发生 10 次同源染色体间的交叉互换(CO),虽然很可能被低估了,但也描述了同等数量的同源染色体间基因转换(GC)。因此,至少有 90% 的减数分裂重组事件,甚至可能更多,以前都无法进行分析。对突变期染色体上病灶模式的目测与减数分裂重组不同机制的预期完全吻合,值得注意的是,没有发现断裂诱导复制 DNA 合成长链的证据。对减数分裂前期 I、依赖 SPO11 的 DNA 合成进行标记,为进一步了解减数分裂重组的分子机制带来了巨大希望,而减数分裂重组是真核生物繁殖和进化的核心。
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Meiotic double-strand break repair DNA synthesis tracts in Arabidopsis thaliana.

We report here the successful labelling of meiotic prophase I DNA synthesis in the flowering plant, Arabidopsis thaliana. Incorporation of the thymidine analogue, EdU, enables visualisation of the footprints of recombinational repair of programmed meiotic DNA double-strand breaks (DSB), with ~400 discrete, SPO11-dependent, EdU-labelled chromosomal foci clearly visible at pachytene and later stages of meiosis. This number equates well with previous estimations of 200-300 DNA double-strand breaks per meiosis in Arabidopsis, confirming the power of this approach to detect the repair of most or all SPO11-dependent meiotic DSB repair events. The chromosomal distribution of these DNA-synthesis foci accords with that of early recombination markers and MLH1, which marks Class I crossover sites. Approximately 10 inter-homologue cross-overs (CO) have been shown to occur in each Arabidopsis male meiosis and, athough very probably under-estimated, an equivalent number of inter-homologue gene conversions (GC) have been described. Thus, at least 90% of meiotic recombination events, and very probably more, have not previously been accessible for analysis. Visual examination of the patterns of the foci on the synapsed pachytene chromosomes corresponds well with expectations from the different mechanisms of meiotic recombination and notably, no evidence for long Break-Induced Replication DNA synthesis tracts was found. Labelling of meiotic prophase I, SPO11-dependent DNA synthesis holds great promise for further understanding of the molecular mechanisms of meiotic recombination, at the heart of reproduction and evolution of eukaryotes.

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PLoS Genetics
PLoS Genetics GENETICS & HEREDITY-
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期刊介绍: PLOS Genetics is run by an international Editorial Board, headed by the Editors-in-Chief, Greg Barsh (HudsonAlpha Institute of Biotechnology, and Stanford University School of Medicine) and Greg Copenhaver (The University of North Carolina at Chapel Hill). Articles published in PLOS Genetics are archived in PubMed Central and cited in PubMed.
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