Replication protein A dynamically re-organizes on primer/template junctions to permit DNA polymerase δ holoenzyme assembly and initiation of DNA synthesis.

MLA

Norris, Jessica L., et al. “Replication Protein A Dynamically Re-Organizes on Primer/Template Junctions to Permit DNA Polymerase δ Holoenzyme Assembly and Initiation of DNA Synthesis.” Nucleic Acids Research, vol. 52, no. 13, July 2024, pp. 7650–64. EBSCOhost, https://doi.org/10.1093/nar/gkae475.

APA

Norris, J. L., Rogers, L. O., Pytko, K. G., Dannenberg, R. L., Perreault, S., Kaushik, V., Kuppa, S., Antony, E., & Hedglin, M. (2024). Replication protein A dynamically re-organizes on primer/template junctions to permit DNA polymerase δ holoenzyme assembly and initiation of DNA synthesis. Nucleic Acids Research, 52(13), 7650–7664. https://doi.org/10.1093/nar/gkae475

Chicago

Norris, Jessica L, Lindsey O Rogers, Kara G Pytko, Rachel L Dannenberg, Samuel Perreault, Vikas Kaushik, Sahiti Kuppa, Edwin Antony, and Mark Hedglin. 2024. “Replication Protein A Dynamically Re-Organizes on Primer/Template Junctions to Permit DNA Polymerase δ Holoenzyme Assembly and Initiation of DNA Synthesis.” Nucleic Acids Research 52 (13): 7650–64. doi:10.1093/nar/gkae475.