Abstract
PrimPol is a primase–polymerase involved in nuclear and mitochondrial DNA replication in eukaryotic cells. Although PrimPol is predicted to possess an archaeo-eukaryotic primase and a UL52-like zinc finger domain, the role of these domains has not been established. Here, we report that the proposed zinc finger domain of human PrimPol binds zinc ions and is essential for maintaining primase activity. Although apparently dispensable for its polymerase activity, the zinc finger also regulates the processivity and fidelity of PrimPol's extension activities. When the zinc finger is disrupted, PrimPol becomes more promutagenic, has an altered translesion synthesis spectrum and is capable of faithfully bypassing cyclobutane pyrimidine dimer photolesions. PrimPol's polymerase domain binds to both single- and double-stranded DNA, whilst the zinc finger domain binds only to single-stranded DNA. We additionally report that although PrimPol's primase activity is required to restore wild-type replication fork rates in irradiated PrimPol−/− cells, polymerase activity is sufficient to maintain regular replisome progression in unperturbed cells. Together, these findings provide the first analysis of the molecular architecture of PrimPol, describing the activities associated with, and interplay between, its functional domains and defining the requirement for its primase and polymerase activities during nuclear DNA replication.
Highlights
DNA replication is an essential biological process, indispensable for the existence of life
As the zinc-finger domain is required for the priming activity of human PrimPol, we evaluated the importance of this functional module in the context of PrimPol’s DNA polymerase activity
Recent studies have identified that PrimPol is a novel eukaryotic DNA polymerase capable of performing both priming and primer extension synthesis [4,5,6,7]
Summary
DNA replication is an essential biological process, indispensable for the existence of life. Genome replication starts with DNA template-dependent synthesis of short RNA primers that are further extended with deoxynucleotides by the replication machinery. This initial step in DNA replication is often defined as de novo primer synthesis and is catalysed by specialised DNA polymerases known as primases. Based on their structural topology, these enzymes can be classified into archaeo-eukaryotic primases (AEPs) or DnaG-like prokaryotic primases [2,3]. Bioinformatic analysis identified the existence of an additional uncharacterized DNA primase in eukaryotes called PrimPol (CCDC111 or FLJ33167) [3,4,5,6,7], which belongs to the ‘NCLDV-herpesvirus clade’ of viral AEPs
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