Xeroderma pigmentosum A homolog from Hydra partially complements DNA repair defect in human XPA-deficient cells.

Nucleotide excision repair (NER) pathway is a DNA repair mechanism that rectifies a wide spectrum of DNA lesions. Xeroderma pigmentosum group of proteins (XPA through XPG) orchestrate the NER pathway in humans. We have earlier studied XPA homolog from Hydra (HyXPA) and found it to be similar to human XPA. Here, we examined if HyXPA can functionally complement human XPA-deficient cells and reduce their sensitivity to UV radiation. We found that HyXPA was able to partially rescue XPA-deficient human cells from UV by its binding to chromatin of UV-irradiated cells. However, HyXPA failed to bind replication protein A (RPA70), a key interacting partner of human XPA in NER pathway. This could be attributed to changes in certain amino acid residues that have occurred during evolution, leading to prevention of some interactions between Hydra and human proteins.