Protein interactions in T7 DNA replisome inhibit the bypass of abasic site by DNA polymerase

Abasic site as a common DNA lesion blocks DNA replication and is highly mutagenic. Protein interactions in T7 DNA replisome facilitate DNA replication and translesion DNA synthesis. However, bypass of an abasic site by T7 DNA replisome has never been investigated. In this work, we used T7 DNA replisome and T7 DNA polymerase alone as two models to study DNA replication on encountering an abasic site. Relative to unmodified DNA, abasic site strongly inhibited primer extension and completely blocked strand-displacement DNA synthesis, due to the decreased fraction of enzyme–DNA productive complex and the reduced average extension rates. Moreover, abasic site at DNA fork inhibited the binding of DNA polymerase or helicase onto fork and the binding between polymerase and helicase at fork. Notably and unexpectedly, we found DNA polymerase alone bypassed an abasic site on primer/template (P/T) substrate more efficiently than did polymerase and helicase complex bypass it at fork. The presence of gp2.5 further inhibited the abasic site bypass at DNA fork. Kinetic analysis showed that this inhibition at fork relative to that on P/T was due to the decreased fraction of productive complex instead of the average extension rates. Therefore, we found that protein interactions in T7 DNA replisome inhibited the bypass of DNA lesion, different from all the traditional concept that protein interactions or accessory proteins always promote DNA replication and DNA damage bypass, providing new insights in translesion DNA synthesis performed by DNA replisome.