Regulation of XPG-DNA damage binding dynamics by pre- and post-incision nucleotide excision repair factors and EXO1

Alba Muniesa Vargas; Cristina Ribeiro da Silva; Carlota Davo Martinez; Jacinta van de Grint; Maroussia Ganpat; Karen Thijssen; Joris Pothof; Adriaan Houtsmuller; Arjan Theil; Wim Vermeulen; Hannes Lans

doi:10.1101/2024.12.06.627128

Regulation of XPG-DNA damage binding dynamics by pre- and post-incision nucleotide excision repair factors and EXO1

Alba Muniesa Vargas, Cristina Ribeiro da Silva, Carlota Davo Martinez, Jacinta van de Grint, Maroussia Ganpat, Karen Thijssen, Joris Pothof, Adriaan Houtsmuller, Arjan Theil, Wim Vermeulen, Hannes Lans^*

^*Corresponding author for this work

Research output: Working paper › Preprint › Academic

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Abstract

The XPG endonuclease plays a crucial role in nucleotide excision repair (NER) and other genome maintenance pathways. Precise regulation of XPG recruitment and activity during DNA repair is essential to avoid erroneous DNA incisions and genomic instability. In this study, we employed live-cell imaging to investigate how XPG function is regulated during NER, focusing on its dynamic interactions with key factors involved in the pre- and post-incision steps. We found that TFIIH and XPA facilitate the recruitment and association of XPG with DNA damage, and that XPG localizes separately from TFIIH to UV-induced lesions. Furthermore, our results show that XPG’s dissociation from DNA damage is triggered by its own incision activity as well as by that of XPF. Additionally, the exonuclease EXO1 promotes XPG dissociation, likely by processing incised DNA, even in the absence of XPG-mediated incision. Our findings help to better understand the regulatory mechanisms that control XPG activity during NER and provide important insights into the complex dynamics of the repair process.

Original language	English
Pages	1-37
Number of pages	37
DOIs	https://doi.org/10.1101/2024.12.06.627128
Publication status	Published - 9 Dec 2024

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Series	bioRxiv : the preprint server for biology
ISSN	2692-8205

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Muniesa Vargas, A., Ribeiro da Silva, C., Davo Martinez, C., van de Grint, J., Ganpat, M., Thijssen, K., Pothof, J., Houtsmuller, A., Theil, A., Vermeulen, W., & Lans, H. (2024). Regulation of XPG-DNA damage binding dynamics by pre- and post-incision nucleotide excision repair factors and EXO1. (pp. 1-37). bioRxiv : the preprint server for biology https://doi.org/10.1101/2024.12.06.627128

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abstract = "The XPG endonuclease plays a crucial role in nucleotide excision repair (NER) and other genome maintenance pathways. Precise regulation of XPG recruitment and activity during DNA repair is essential to avoid erroneous DNA incisions and genomic instability. In this study, we employed live-cell imaging to investigate how XPG function is regulated during NER, focusing on its dynamic interactions with key factors involved in the pre- and post-incision steps. We found that TFIIH and XPA facilitate the recruitment and association of XPG with DNA damage, and that XPG localizes separately from TFIIH to UV-induced lesions. Furthermore, our results show that XPG{\textquoteright}s dissociation from DNA damage is triggered by its own incision activity as well as by that of XPF. Additionally, the exonuclease EXO1 promotes XPG dissociation, likely by processing incised DNA, even in the absence of XPG-mediated incision. Our findings help to better understand the regulatory mechanisms that control XPG activity during NER and provide important insights into the complex dynamics of the repair process.",

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Muniesa Vargas, A, Ribeiro da Silva, C, Davo Martinez, C, van de Grint, J, Ganpat, M, Thijssen, K , Pothof, J , Houtsmuller, A , Theil, A , Vermeulen, W & Lans, H 2024 'Regulation of XPG-DNA damage binding dynamics by pre- and post-incision nucleotide excision repair factors and EXO1' bioRxiv : the preprint server for biology, pp. 1-37. https://doi.org/10.1101/2024.12.06.627128

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AU - van de Grint, Jacinta

AU - Ganpat, Maroussia

AU - Thijssen, Karen

AU - Pothof, Joris

AU - Houtsmuller, Adriaan

AU - Theil, Arjan

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AU - Lans, Hannes

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AB - The XPG endonuclease plays a crucial role in nucleotide excision repair (NER) and other genome maintenance pathways. Precise regulation of XPG recruitment and activity during DNA repair is essential to avoid erroneous DNA incisions and genomic instability. In this study, we employed live-cell imaging to investigate how XPG function is regulated during NER, focusing on its dynamic interactions with key factors involved in the pre- and post-incision steps. We found that TFIIH and XPA facilitate the recruitment and association of XPG with DNA damage, and that XPG localizes separately from TFIIH to UV-induced lesions. Furthermore, our results show that XPG’s dissociation from DNA damage is triggered by its own incision activity as well as by that of XPF. Additionally, the exonuclease EXO1 promotes XPG dissociation, likely by processing incised DNA, even in the absence of XPG-mediated incision. Our findings help to better understand the regulatory mechanisms that control XPG activity during NER and provide important insights into the complex dynamics of the repair process.

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Regulation of XPG-DNA damage binding dynamics by pre- and post-incision nucleotide excision repair factors and EXO1

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