Journal
SCIENCE
Volume 381, Issue 6659, Pages 771-778Publisher
AMER ASSOC ADVANCEMENT SCIENCE
DOI: 10.1126/science.adi2436
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The study reveals that human POT1 binds the double-stranded-single-stranded junction of telomeres by recognizing the phosphorylated 5' end of the chromosome. This binding is achieved through a POT-hole surface, and mutation of this surface compromises the protection of the junction and the suppression of DNA damage response in human cells. Only POT1a, not POT1b, contains the POT-hole and is sufficient for end protection.
Protection of telomeres 1 (POT1) is the 3 ' single-stranded overhang-binding telomeric protein that prevents an ataxia telangiectasia and Rad3-related (ATR) DNA damage response (DDR) at chromosome ends. What precludes the DDR machinery from accessing the telomeric double-stranded-single-stranded junction is unknown. We demonstrate that human POT1 binds this junction by recognizing the phosphorylated 5 ' end of the chromosome. High-resolution crystallographic structures reveal that the junction is capped by POT1 through a POT-hole surface, the mutation of which compromises junction protection in vitro and telomeric 5 '-end definition and DDR suppression in human cells. Whereas both mouse POT1 paralogs bind the single-stranded overhang, POT1a, not POT1b, contains a POT-hole and binds the junction, which explains POT1a's sufficiency for end protection. Our study shifts the paradigm for DDR suppression at telomeres by highlighting the importance of protecting the double-stranded-single-stranded junction.
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