RanDeL-seq: A high-throughput method to map viral cis- and trans-acting elements

Abstract: AbstractIt has long been known that noncoding genomic regions can be obligate cis elements acted upon in trans by gene products. In viruses, cis elements regulate gene expression, encapsidation, and other maturation processes but mapping these elements relies on targeted iterative deletion or laborious prospecting for rare, spontaneously occurring mutants. Here, we introduce a method to comprehensi… Show more

“…An engineered TIP RNA conditionally propagates and inhibits SARS-CoV-2 in cell culture Given the challenges of engineering TIPs for other viruses (Notton et al, 2021), we set out to construct a TIP with appropriate parameters. As a starting point, we used previous high-throughput analyses of the cis genetic elements required for efficient propagation of sub-genomic transcripts in other RNA viruses (Notton et al, 2021) and historical data from murine hepatitis virus (Baric et al, 1988;Makino et al, 1990), both of which argued that, at a minimum, the viral 5 0 and 3 0 UTRs were essential for conditional replication and construction of a TIP. Consequently, we designed two minimal sub-genomic synthetic constructs, encoding different lengths of the 5 0 and 3 0 regions of the viral genome and tested whether they met the threshold values to act as TIPs.…”

“…From an evolutionary perspective, it is also not immediately obvious why endogenous TIPs have not naturally evolved to limit virus infections and the considerations are complex, particularly in a virus's natural hosts (Daugherty and Malik, 2012). For lentiviruses such as HIV, the barrier appears more straightforward, as R 0 >1 variants appear to require recombination ''acrobatics'' since a cis element necessary for efficient transmission is within the TIP deletion and must be recovered and repositioned outside the deleted region (Notton et al, 2021). However, for flaviviruses there is evidence that natural DIPs arise and transmit through host populations (Aaskov et al, 2006), and historical hypotheses have asserted that such DIPs have biological fitness roles aiding the parent wild-type virus.…”

Identification of a therapeutic interfering particle—A single-dose SARS-CoV-2 antiviral intervention with a high barrier to resistance

“…An engineered TIP RNA conditionally propagates and inhibits SARS-CoV-2 in cell culture Given the challenges of engineering TIPs for other viruses (Notton et al, 2021), we set out to construct a TIP with appropriate parameters. As a starting point, we used previous high-throughput analyses of the cis genetic elements required for efficient propagation of sub-genomic transcripts in other RNA viruses (Notton et al, 2021) and historical data from murine hepatitis virus (Baric et al, 1988;Makino et al, 1990), both of which argued that, at a minimum, the viral 5 0 and 3 0 UTRs were essential for conditional replication and construction of a TIP. Consequently, we designed two minimal sub-genomic synthetic constructs, encoding different lengths of the 5 0 and 3 0 regions of the viral genome and tested whether they met the threshold values to act as TIPs.…”

“…From an evolutionary perspective, it is also not immediately obvious why endogenous TIPs have not naturally evolved to limit virus infections and the considerations are complex, particularly in a virus's natural hosts (Daugherty and Malik, 2012). For lentiviruses such as HIV, the barrier appears more straightforward, as R 0 >1 variants appear to require recombination ''acrobatics'' since a cis element necessary for efficient transmission is within the TIP deletion and must be recovered and repositioned outside the deleted region (Notton et al, 2021). However, for flaviviruses there is evidence that natural DIPs arise and transmit through host populations (Aaskov et al, 2006), and historical hypotheses have asserted that such DIPs have biological fitness roles aiding the parent wild-type virus.…”

Identification of a therapeutic interfering particle—A single-dose SARS-CoV-2 antiviral intervention with a high barrier to resistance