Correction Clarifies PCNA Protein Dynamics Visualization Method

Proliferating Cell Nuclear Antigen (PCNA) is a crucial protein involved in DNA replication and repair, acting as a sliding clamp that enhances processivity of DNA polymerases. Understanding its internal backbone dynamics, often studied using 15N relaxation Nuclear Magnetic Resonance (NMR) spectroscopy, is vital for comprehending its function. A previous publication contained an error in the visual representation of these dynamics, specifically regarding the relationship between measured S2 order parameters and the graphical thickness in a figure. This correction addresses the precise mathematical relationship used to visually depict PCNA's backbone flexibility in solution.

The original Figure 2 legend incorrectly stated that the thickness of the PCNA backbone structure as a coil was proportional to S2. The corrected analysis revealed that the thickness was, in fact, related to 1-S2, indicating that regions with lower S2 values (meaning greater flexibility) were depicted with greater thickness. This ensures the visual representation accurately reflects the protein's dynamic properties. > The precise, corrected relationship for the MolMol graphical thickness was determined to be: MolMol_thickness = ((1-S2)*3)+0.2. This formula uses an arbitrary scaling factor of 3 and an offset of 0.2, ensuring that the visual representation accurately reflects the protein's flexibility, where a higher 1-S2 value corresponds to increased flexibility and thus a thicker visual representation. This correction ensures the visual data aligns with the underlying 15N relaxation measurements of protein dynamics.