AI Article Synopsis

  • * XPA is a key protein in NER, involved in later stages of the repair process, and works alongside the FEN1 enzyme, which is essential for completing newly synthesized DNA strands and also plays a role in base excision repair.
  • * Research shows that XPA and FEN1 can form complexes both with and without DNA present, suggesting they interact directly; however, XPA appears to slightly reduce FEN1's activity, indicating a regulatory role in DNA repair processes.

Article Abstract

Nucleotide excision repair (NER) is the most universal repair pathway, which removes a wide range of DNA helix-distorting lesions caused by chemical or physical agents. The final steps of this repair process are gap-filling repair synthesis and subsequent ligation. XPA is the central NER scaffolding protein factor and can be involved in post-incision NER stages. Replication machinery is loaded after the first incision of the damaged strand that is performed by the XPF-ERCC1 nuclease forming a damaged 5'-flap processed by the XPG endonuclease. Flap endonuclease I (FEN1) is a critical component of replication machinery and is absolutely indispensable for the maturation of newly synthesized strands. FEN1 also contributes to the long-patch pathway of base excision repair. Here, we use a set of DNA substrates containing a fluorescently labeled 5'-flap and different size gap to analyze possible repair factor-replication factor interactions. Ternary XPA-FEN1-DNA complexes with each tested DNA are detected. Furthermore, we demonstrate XPA-FEN1 complex formation in the absence of DNA due to protein-protein interaction. Functional assays reveal that XPA moderately inhibits FEN1 catalytic activity. Using fluorescently labeled XPA, formation of ternary RPA-XPA-FEN1 complex, where XPA accommodates FEN1 and RPA contacts simultaneously, can be proposed. We discuss possible functional roles of the XPA-FEN1 interaction in NER related DNA resynthesis and/or other DNA metabolic processes where XPA can be involved in the complex with FEN1.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11274875PMC
http://dx.doi.org/10.3390/biom14070814DOI Listing

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