Please use this identifier to cite or link to this item: https://www.um.edu.mt/library/oar/handle/123456789/117328
Title: SAP domain facilitates efficient loading of Ku onto DNA ends
Authors: Fulnecek, Jaroslav
Klimentova, Eva
Cairo, Albert
Valuchova Bukovcakova, Sona
Alexiou, Panagiotis
Prokop, Zbynek
Riha, Karel
Keywords: DNA -- Analysis
Algorithms
Application software
Database management
Issue Date: 2023
Publisher: Cold Spring Harbor Laboratory
Citation: Fulnecek, J., Klimentova, E., Cairo, A., Valuchova Bukovcakova, S., Alexiou, P., Prokop, Z., & Riha, K. (2023). SAP domain facilitates efficient loading of Ku onto DNA ends. bioRxiv, 2023-06.
Abstract: Recognition and processing of DNA ends play a central role in maintaining genome integrity. The evolutionarily conserved DNA repair complex Ku serves as the primary sensor of free DNA ends in eukaryotic cells. Its rapid association with DNA ends is crucial for several cellular processes, including non-homologous end joining (NHEJ) DNA repair and telomere protection. In this study, we conducted a transient kinetic analysis to investigate the impact of the SAP domain on individual phases of the Ku-DNA interaction. Specifically, we examined the initial binding, the subsequent docking of Ku onto DNA, and the sliding of Ku along DNA. Our findings revealed that the C-terminal domain of Ku70, known as SAP ((SAF-A/B, Acinus and PIAS), facilitates the initial phases of Ku-DNA interaction, but does not affect the sliding process. This suggests that SAP may either establish the first interactions with DNA, or stabilize these initial interactions during loading. To assess the biological role of SAP, we generated Arabidopsis plants expressing Ku lacking the SAP domain (ΔSAP). Intriguingly, despite the decreased efficiency of the ΔSAP Ku complex in loading onto DNA, the mutant plants exhibited full proficiency in classical NHEJ and telomere maintenance. This indicates that the speed of Ku loading onto telomeres or DNA double-strand breaks (DSBs) is not the decisive factor in stabilizing these DNA structures.
URI: https://www.um.edu.mt/library/oar/handle/123456789/117328
Appears in Collections:Scholarly Works - FacHScABS

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