Abstract
Non-homologous end joining (NHEJ) is the predominant pathway that repairs DNA double-strand breaks in vertebrates. During NHEJ DNA ends are held together by a multi-protein synaptic complex until they are ligated. Here, we use Xenopus laevis egg extract to investigate the role of the intrinsically disordered C-terminal tail of the XRCC4-like factor (XLF), a critical factor in end synapsis. We demonstrate that the XLF tail along with the Ku-binding motif (KBM) at the extreme C-terminus are required for end joining. Although the underlying sequence of the tail can be varied, a minimal tail length is required for NHEJ. Single-molecule FRET experiments that observe end synapsis in real-time show that this defect is due to a failure to closely align DNA ends. Our data supports a model in which a single C-terminal tail tethers XLF to Ku, while allowing XLF to form interactions with XRCC4 that enable synaptic complex formation.
Highlights
DNA double strand breaks (DSBs) are a toxic form of DNA damage
The Ku80 heterodimer (Ku) Binding Motif (KBM) of XRCC4-like factor (XLF) is essential for end joining in Xenopus egg extract
These results are consistent with the Ku binding motif (KBM) playing a critical role in recruiting XLF to DSBs through its interaction with Ku.[25,26]
Summary
DNA double strand breaks (DSBs) are a toxic form of DNA damage. Within vertebrates the majority of DSBs are repaired by non-homologous end joining (NHEJ).[1]. Instead a synaptic complex comprised of a number of core and accessory NHEJ factors holds DNA ends together until they are ligated. A host of end processing enzymes, including NHEJ associated polymerases and nucleases, act on these ends to allow for ligation by DNA ligase IV (Lig4).[6,7] Ligation requires at least two additional factors: XRCC4, a scaffolding factor to which Lig[4] is constitutively bound, and the structurally related XRCC4-like factor (XLF).[6,8,9] Together these factors must assemble into a synaptic complex that recognizes, synapses, aligns, processes, and ligates DNA ends
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