Long noncoding RNAs (lncRNAs) regulate gene expression by association with chromatin,
but how they target chromatin remains poorly understood. We have used chromatin RNA
immunoprecipitation-coupled high-throughput sequencing to identify 276 lncRNAs
enriched in repressive chromatin from breast cancer cells. Using one of the
chromatin-interacting lncRNAs, MEG3, we explore the mechanisms by which
lncRNAs target chromatin. Here we show that MEG3 and EZH2 share common
target genes, including the TGF-β pathway genes. Genome-wide mapping of
MEG3 binding sites reveals that MEG3 modulates the activity of
TGF-β genes by binding to distal regulatory elements. MEG3 binding
sites have GA-rich sequences, which guide MEG3 to the chromatin through
RNA–DNA triplex formation. We have found that RNA–DNA triplex
structures are widespread and are present over the MEG3 binding sites
associated with the TGF-β pathway genes. Our findings suggest that
RNA–DNA triplex formation could be a general characteristic of target gene
recognition by the chromatin-interacting lncRNAs.
In patients participating in regular physical exercise and low-fat diet, coronary artery disease progresses at a slower pace compared with a control group on usual care.
How mtDNA replication is terminated and the newly formed genomes are separated remain unknown. We here demonstrate that the mitochondrial isoform of topoisomerase 3α (Top3α) fulfills this function, acting independently of its nuclear role as a component of the Holliday junction-resolving BLM-Top3α-RMI1-RMI2 (BTR) complex. Our data indicate that mtDNA replication termination occurs via a hemicatenane formed at the origin of H-strand replication and that Top3α is essential for resolving this structure. Decatenation is a prerequisite for separation of the segregating unit of mtDNA, the nucleoid, within the mitochondrial network. The importance of this process is highlighted in a patient with mitochondrial disease caused by biallelic pathogenic variants in TOP3A, characterized by muscle-restricted mtDNA deletions and chronic progressive external ophthalmoplegia (CPEO) plus syndrome. Our work establishes Top3α as an essential component of the mtDNA replication machinery and as the first component of the mtDNA separation machinery.
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