TY - JOUR
T1 - Topoisomerase IIβ targets DNA crossovers formed between distant homologous sites to induce chromatin opening
AU - Miyaji, Mary
AU - Furuta, Ryohei
AU - Hosoya, Osamu
AU - Sano, Kuniaki
AU - Hara, Norikazu
AU - Kuwano, Ryozo
AU - Kang, Jiyoung
AU - Tateno, Masaru
AU - Tsutsui, Kimiko M.
AU - Tsutsui, Ken
N1 - Funding Information:
This work was supported by Grant-in-aid for Scientific Research (23310133 to KT) from MEXT and Grant-in-aid for Scientific Research on Innovative Areas “Genome Science” (No. 221S0002) from MEXT. We thank S. Sugano, Y. Suzuki, and Y. Kohara for providing us with NGS sequencing opportunities and suggestions on sequence analysis.
Publisher Copyright:
© 2020, The Author(s).
PY - 2020/12/1
Y1 - 2020/12/1
N2 - Type II DNA topoisomerases (topo II) flip the spatial positions of two DNA duplexes, called G- and T- segments, by a cleavage-passage-resealing mechanism. In living cells, these DNA segments can be derived from distant sites on the same chromosome. Due to lack of proper methodology, however, no direct evidence has been described so far. The beta isoform of topo II (topo IIβ) is essential for transcriptional regulation of genes expressed in the final stage of neuronal differentiation. Here we devise a genome-wide mapping technique (eTIP-seq) for topo IIβ target sites that can measure the genomic distance between G- and T-segments. It revealed that the enzyme operates in two distinctive modes, termed proximal strand passage (PSP) and distal strand passage (DSP). PSP sites are concentrated around transcription start sites, whereas DSP sites are heavily clustered in small number of hotspots. While PSP represent the conventional topo II targets that remove local torsional stresses, DSP sites have not been described previously. Most remarkably, DSP is driven by the pairing between homologous sequences or repeats located in a large distance. A model-building approach suggested that topo IIβ acts on crossovers to unknot the intertwined DSP sites, leading to chromatin decondensation.
AB - Type II DNA topoisomerases (topo II) flip the spatial positions of two DNA duplexes, called G- and T- segments, by a cleavage-passage-resealing mechanism. In living cells, these DNA segments can be derived from distant sites on the same chromosome. Due to lack of proper methodology, however, no direct evidence has been described so far. The beta isoform of topo II (topo IIβ) is essential for transcriptional regulation of genes expressed in the final stage of neuronal differentiation. Here we devise a genome-wide mapping technique (eTIP-seq) for topo IIβ target sites that can measure the genomic distance between G- and T-segments. It revealed that the enzyme operates in two distinctive modes, termed proximal strand passage (PSP) and distal strand passage (DSP). PSP sites are concentrated around transcription start sites, whereas DSP sites are heavily clustered in small number of hotspots. While PSP represent the conventional topo II targets that remove local torsional stresses, DSP sites have not been described previously. Most remarkably, DSP is driven by the pairing between homologous sequences or repeats located in a large distance. A model-building approach suggested that topo IIβ acts on crossovers to unknot the intertwined DSP sites, leading to chromatin decondensation.
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U2 - 10.1038/s41598-020-75004-w
DO - 10.1038/s41598-020-75004-w
M3 - Article
C2 - 33122676
AN - SCOPUS:85094630380
SN - 2045-2322
VL - 10
JO - Scientific reports
JF - Scientific reports
IS - 1
M1 - 18550
ER -