Abstract
G-quadruplexes (G4s) are four-stranded nucleic acid structures abundant at gene promoters. They can adopt several distinctive conformations. G4s have been shown to form in the herpes simplex virus-1 (HSV-1) genome during its viral cycle. Here by cross-linking/pull-down assay we identified ICP4, the major HSV-1 transcription factor, as the protein that most efficiently interacts with viral G4s during infection. ICP4 specific and direct binding and unfolding of parallel G4s, including those present in HSV-1 immediate early gene promoters, induced transcription in vitro and in infected cells. This mechanism was also exploited by ICP4 to promote its own transcription. Proximity ligation assay allowed visualization of G4-protein interaction at the single selected G4 in cells. G4 ligands inhibited ICP4 binding to G4s. Our results indicate the existence of a well-defined G4-viral protein network that regulates the productive HSV-1 cycle. They also point to G4s as elements that recruit transcription factors to activate transcription in cells.
Highlights
G-quadruplexes (G4s) are four-stranded nucleic acid structures abundant at gene promoters
The proteins bound to the un2L2 bait were subjected to SDS–PAGE/mass spectrometry (MS): data were analysed by Mascot software, which assigns a score based on the number of fragments that match the recognised protein and the probability that the observed match is not a random event
These data altogether confirmed the quality and reliability of the pull-down/ MS assay. Taken together these data prove that we had reliable data from our pull-down assay coupled to MS analysis, with novel viral proteins identified as G4 binders at the herpes simplex virus-1 (HSV-1) genome level, with ICP4 being the most noteworthy
Summary
G-quadruplexes (G4s) are four-stranded nucleic acid structures abundant at gene promoters. ICP4 specific and direct binding and unfolding of parallel G4s, including those present in HSV-1 immediate early gene promoters, induced transcription in vitro and in infected cells. This mechanism was exploited by ICP4 to promote its own transcription. Our results indicate the existence of a well-defined G4-viral protein network that regulates the productive HSV-1 cycle They point to G4s as elements that recruit transcription factors to activate transcription in cells. We have previously demonstrated that biologically significant and highly conserved G4s are present in crucial elements of the HSV-1 genome, in particular, within repeated regions and in immediate early gene promoters, which control the viral life cycle[23,24]. Viral G4s are observable in infected cells with peak signals during HSV-1 DNA replication[25]
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