Global cis-regulatory landscape of double-stranded DNA viruses

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The study mapped cis-regulatory elements (CREs) used by dsDNA viruses to control viral gene expression through host transcriptional machinery. Using massively parallel reporter assays across 27 dsDNA virus families (about 2,000 CREs total, spanning Adenovirus, Herpesvirus, Polyomavirus, and Papillomavirus) and additional saturation mutagenesis plus machine learning, the authors found that viral genomes contain higher CRE density than the human genome, with most CREs showing promoter-like features and often overlapping protein-coding sequences. They also reported viral CRE regulators, including SP, ETS, and bZIP factors and other transcription factor activities linked to signal-activated pathways, with the stated caveat that CRE identification is based on reporter assays and functional modeling rather than complete in vivo regulatory circuitry. The paper does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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Abstract

Most double-stranded DNA (dsDNA) viruses use the host transcriptional machinery to express viral genes for replication and immune evasion. This is mediated by viral cis-regulatory elements (CREs) regulated by host and viral transcription factors (TFs). Although some viral CREs and their regulatory mechanisms have been determined, most remain unidentified. Here, we used massively parallel reporter assays to identify ∼2,000 CREs across 27 dsDNA viruses from the Adenovirus, Herpesvirus, Polyomavirus and Papillomavirus families. Viral genomes have a higher CRE density than the human genome, with most viral CREs having promoter-like features and overlapping protein coding sequences. Using saturation mutagenesis and machine learning models, we report viral CRE regulators, including SP, ETS, bZIPs, and TFs acting downstream of signal-activated pathways. Altogether, we present a comprehensive functional CRE map of human-infecting dsDNA viruses that serves as a blueprint for further studies in viral regulation, reactivation, evolution, and viral vector design.
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Abstract Most double-stranded DNA (dsDNA) viruses use the host transcriptional machinery to express viral genes for replication and immune evasion. This is mediated by viral cis-regulatory elements (CREs) regulated by host and viral transcription factors (TFs). Although some viral CREs and their regulatory mechanisms have been determined, most remain unidentified. Here, we used massively parallel reporter assays to identify ∼2,000 CREs across 27 dsDNA viruses from the Adenovirus, Herpesvirus, Polyomavirus and Papillomavirus families. Viral genomes have a higher CRE density than the human genome, with most viral CREs having promoter-like features and overlapping protein coding sequences. Using saturation mutagenesis and machine learning models, we report viral CRE regulators, including SP, ETS, bZIPs, and TFs acting downstream of signal-activated pathways. Altogether, we present a comprehensive functional CRE map of human-infecting dsDNA viruses that serves as a blueprint for further studies in viral regulation, reactivation, evolution, and viral vector design. Competing Interest Statement J.I.F.B., T.H.T., B.D., and J.A.F. are named in a patent application describing the generation of a modified adenovirus 5 vector. R.T. has patents related to the application of MPRA.

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last seen: 2026-05-20T01:45:00.602351+00:00
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License: CC-BY-NC-4.0