Semiconservative transmission of DNA N6-adenine methylation in a unicellular eukaryote

生物 DNA甲基化 甲基化 四膜虫 染色质 DNA 细胞生物学 甲基转移酶 遗传学 分子生物学 基因 基因表达
作者
Yalan Sheng,Yuanyuan Wang,Wentao Yang,Xue Qing Wang,Jiuwei Lu,Bo Pan,Bei Nan,Yifan Liu,Fei Ye,Chun Li,Jikui Song,Yali Dou,Shan Gao,Yifan Liu
出处
期刊:Genome Research [Cold Spring Harbor Laboratory Press]
卷期号:: gr.277843.123-gr.277843.123
标识
DOI:10.1101/gr.277843.123
摘要

While DNA N6-adenine methylation (6mA) is best known in prokaryotes, its presence in eukaryotes has generated great interest recently. Biochemical and genetic evidence supports that AMT1, a MT-A70 family methyltransferase (MTase), is crucial for 6mA deposition in unicellular eukaryotes. Nonetheless, 6mA transmission mechanism remains to be elucidated. Taking advantage of Single Molecule Real-Time Circular Consensus Sequencing (SMRT CCS), here we provide definitive evidence for semiconservative transmission of 6mA in Tetrahymena thermophila . In wild-type (WT) cells, 6mA occurs at the self-complementary ApT dinucleotide, mostly in full methylation (full-6mApT); after DNA replication, hemi-methylation (hemi-6mApT) is transiently present on the parental strand, opposite to the daughter strand readily labeled by 5-bromo-2’-deoxyuridine (BrdU). In ΔAMT1 cells, 6mA predominantly occurs as hemi-6mApT. Hemi-to-full conversion in WT cells is fast, robust, and processive, while de novo methylation in ΔAMT1 cells is slow and sporadic. In Tetrahymena , regularly spaced 6mA clusters coincide with linker DNA of nucleosomes arrayed in the gene body. Importantly, in vitro methylation of human chromatin by reconstituted AMT1 complex recapitulates preferential targeting of hemi-6mApT sites in linker DNA, supporting AMT1’s intrinsic and autonomous role in maintenance methylation. We conclude that 6mA is transmitted by a semiconservative mechanism: full-6mApT is split by DNA replication into hemi-6mApT, which is restored to full-6mApT by AMT1-dependent maintenance methylation. Our study dissects AMT1-dependent maintenance methylation and AMT1-independent de novo methylation, reveals a 6mA transmission pathway with striking similarity to 5-methyl cytosine (5mC) transmission at the CpG dinucleotide, and establishes 6mA as a bona fide eukaryotic epigenetic mark.

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