A conserved domain of the large subunit of replication factor C binds PCNA and acts like a dominant negative inhibitor of DNA replication in mammalian cells.

Replication factor C (RF‐C), a complex of five polypeptides, is essential for cell‐free SV40 origin‐dependent DNA replication and viability in yeast. The cDNA encoding the large subunit of human RF‐C (RF‐Cp145) was cloned in a Southwestern screen. Using deletion mutants of RF‐Cp145 we have mapped the DNA binding domain of RF‐Cp145 to amino acid residues 369–480. This domain is conserved among both prokaryotic DNA ligases and eukaryotic poly(ADP‐ribose) polymerases and is absent in other subunits of RF‐C. The PCNA binding domain maps to amino acid residues 481–728 and is conserved in all five subunits of RF‐C. The PCNA binding domain of RF‐Cp145 inhibits several functions of RF‐C, such as: (i) in vitro DNA replication of SV40 origin‐containing DNA; (ii) RF‐C‐dependent loading of PCNA onto DNA; and (iii) RF‐C‐dependent DNA elongation. The PCNA binding domain of RF‐Cp145 localizes to the nucleus and inhibits DNA synthesis in transfected mammalian cells. In contrast, the DNA binding domain of RF‐Cp145 does not inhibit DNA synthesis in vitro or in vivo. We therefore conclude that amino acid residues 481–728 of human RF‐Cp145 are critical and act as a dominant negative mutant of RF‐C function in DNA replication in vivo.