拟南芥着丝粒、端粒和 rDNA 单分子靶向可及性和甲基化测序。

Single-molecule targeted accessibility and methylation sequencing of centromeres, telomeres and rDNAs in Arabidopsis.

机构信息

Institute of Plant and Food Science, Department of Biology, School of Life Sciences, Southern University of Science and Technology, Shenzhen, China.

State Key Laboratory of Plant Genomics and National Center for Plant Gene Research, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing, China.

出版信息

Nat Plants. 2023 Sep;9(9):1439-1450. doi: 10.1038/s41477-023-01498-7. Epub 2023 Aug 20.

DOI:10.1038/s41477-023-01498-7

PMID:37599304

Abstract

The short read-length of next-generation sequencing makes it challenging to characterize highly repetitive regions (HRRs) such as centromeres, telomeres and ribosomal DNAs. Based on recent strategies that combined long-read sequencing and exogenous enzymatic labelling of open chromatin, we developed single-molecule targeted accessibility and methylation sequencing (STAM-seq) in plants by further integrating nanopore adaptive sampling to investigate the HRRs in wild-type Arabidopsis and DNA methylation mutants that are defective in CG- or non-CG methylation. We found that CEN180 repeats show higher chromatin accessibility and lower DNA methylation on their forward strand, individual rDNA units show a negative correlation between their DNA methylation and accessibility, and both accessibility and CHH methylation levels are lower at telomere compared to adjacent subtelomeric region. Moreover, DNA methylation-deficient mutants showed increased chromatin accessibility at HRRs, consistent with the role of DNA methylation in maintaining heterochromatic status in plants. STAM-seq can be applied to study accessibility and methylation of repetitive sequences across diverse plant species.

摘要

下一代测序的短读长使得对高度重复区域（HRRs）如着丝粒、端粒和核糖体 DNA 的特征分析变得具有挑战性。基于最近结合长读测序和开放染色质外源酶标记的策略，我们通过进一步整合纳米孔自适应采样，在植物中开发了单分子靶向可及性和甲基化测序（STAM-seq），以研究野生型拟南芥和 CG 或非 CG 甲基化缺陷的 DNA 甲基化突变体中的 HRRs。我们发现 CEN180 重复序列在其正向链上显示出更高的染色质可及性和更低的 DNA 甲基化，单个 rDNA 单位的 DNA 甲基化与其可及性呈负相关，与相邻亚端粒区相比，端粒处的可及性和 CHH 甲基化水平均较低。此外，DNA 甲基化缺陷突变体在 HRRs 处显示出染色质可及性增加，这与 DNA 甲基化在维持植物异染色质状态中的作用一致。STAM-seq 可应用于研究不同植物物种中重复序列的可及性和甲基化。

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拟南芥着丝粒、端粒和 rDNA 单分子靶向可及性和甲基化测序。

Single-molecule targeted accessibility and methylation sequencing of centromeres, telomeres and rDNAs in Arabidopsis.

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