Single-molecule analysis reveals human UV-damaged DNA-binding protein (UV-DDB) dimerizes on DNA via multiple kinetic intermediates

UV damage in genomic DNA is identified by the human UV-damaged DNA-binding protein (UV-DDB). Recognition of DNA damage by UV-DDB serves to initiate global genomic nucleotide excision repair (NER) in humans. Recent work has revealed that UV-DDB dimerizes at sites of damage. This study demonstrates that prior to stable damage recognition, UV-DDB interrogates DNA for damage via a 3D diffusion mechanism coupled to the formation of multiple transient intermediates. Stable binding at sites of damage is achieved by dimerization of UV-DDB. This study also analyzed a disease-causing mutant of UV-DDB, which was found to slide on DNA, while retaining the ability to dimerize on DNA. These results enhance our understanding of damage recognition in NER in humans.