Production of recombinant human proliferating cellular nuclear antigen (PCNA) for structural and biophysical characterization.

Human proliferating cell nuclear antigen (hPCNA) is a DNA replication processivity factor, which acts as a docking platform, allowing proteins to have access to the replication fork and increasing the affinity of DNA interacting proteins, making it critical for cell survival. The trimer forms a ring-shaped oligomer allowing DNA to pass through the middle and interacting proteins to dock on the outside of the ring. Without this structural formation, there is a loss of DNA replication and repair in the cell. Due to the location of subunit-subunit termini, the addition of a purification tag can hamper crystallography and biophysical experiments, as the trimer complex folding can be impeded. To avoid these complications, a tag-less, step-wise purification was implemented, which resulted in 17.6 mg from 2 L culture of pure hPCNA with a 260 nm/280 nm value of 0.43. The produced crystal structure reveals a correctly formed oligomer. The clear depletion of the tracer binding and probe protein interaction in a fluorescence polarisation competition-based assay demonstrates the purification method produces a protein structure with a functional binding site. This purification method presents a reliable and simple method for producing hPCNA for biophysical characterisation.