Updated project metadata. The replication initiation proteins interact dsDNA located at replication origin and ssDNA of DNA unwinding element (DUE), formed as a result of the destabilization of the double-stranded helix of AT-rich origin region. It is a critical step in the DNA replication initiation; however, the structure of nucleoprotein complex involving initiator protein, dsDNA and/or ssDNA is still elusive and different models are proposed. In this work, based on crosslinking combined with mass spectrometry (MS), structural and bioinformatic analysis, we defined amino acid residues in plasmid Rep proteins, TrfA and RepE, that are essential for interaction with ssDNA. The study of Rep mutant proteins containing single amino acid substitutions affecting DNA interaction reveals the importance of Rep-ssDNA complexes formation for a dsDNA melting at DUE. Furthermore, the crystal structures obtained for complex of RepE protein with DUE ssDNA, and, RepE complexed with both DUE ssDNA and dsDNA containing RepE specific binding site (iteron) revealed that the plasmid initiator can not only bind iterons and ssDNA DUE separately but also can form a tripartite nucleoprotein complex bringing together specific sequences of replication origin. The presented data strongly supports the loop-back model in which a replication initiator molecule interacts with dsDNA and ssDNA.