This research investigates how SUMO protein labeling regulates DNA repair after damage caused by sunlight and other stresses. Using yeast as a model organism, the study shows that SUMO helps recruit and remove repair proteins at damaged DNA sites. Understanding these signaling mechanisms may improve cancer prevention and treatment strategies.

This research investigates the protein SLX4, a key coordinator of DNA repair. Using complementary techniques, it identifies 221 interacting proteins, most previously unknown. Findings reveal a complex network involved in genome maintenance, offering new insights into cellular repair mechanisms and improving understanding of diseases such as cancer.

This research investigates how cells repair dangerous DNA double-strand breaks through the non-homologous end joining pathway. By identifying key proteins involved in this error-prone repair process, the work reveals new opportunities to sensitise cancer cells to radiation and chemotherapy, potentially improving treatment outcomes for aggressive cancers.