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Nucleotide excision repair in human cells: fate of the excised oligonucleotide carrying DNA damage in vivo.


ABSTRACT: Nucleotide excision repair is the sole mechanism for removing the major UV photoproducts from genomic DNA in human cells. In vitro with human cell-free extract or purified excision repair factors, the damage is removed from naked DNA or nucleosomes in the form of 24- to 32-nucleotide-long oligomers (nominal 30-mer) by dual incisions. Whether the DNA damage is removed from chromatin in vivo in a similar manner and what the fate of the excised oligomer was has not been known previously. Here, we demonstrate that dual incisions occur in vivo identical to the in vitro reaction. Further, we show that transcription-coupled repair, which operates in the absence of the XPC protein, also generates the nominal 30-mer in UV-irradiated XP-C mutant cells. Finally, we report that the excised 30-mer is released from the chromatin in complex with the repair factors TFIIH and XPG. Taken together, our results show the congruence of in vivo and in vitro data on nucleotide excision repair in humans.

SUBMITTER: Hu J 

PROVIDER: S-EPMC3774362 | biostudies-literature | 2013 Jul

REPOSITORIES: biostudies-literature

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Nucleotide excision repair in human cells: fate of the excised oligonucleotide carrying DNA damage in vivo.

Hu Jinchuan J   Choi Jun-Hyuk JH   Gaddameedhi Shobhan S   Kemp Michael G MG   Reardon Joyce T JT   Sancar Aziz A  

The Journal of biological chemistry 20130608 29


Nucleotide excision repair is the sole mechanism for removing the major UV photoproducts from genomic DNA in human cells. In vitro with human cell-free extract or purified excision repair factors, the damage is removed from naked DNA or nucleosomes in the form of 24- to 32-nucleotide-long oligomers (nominal 30-mer) by dual incisions. Whether the DNA damage is removed from chromatin in vivo in a similar manner and what the fate of the excised oligomer was has not been known previously. Here, we d  ...[more]

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