AI Article Synopsis
- * The study introduces in cell Mutational Interference Mapping Experiment (in cell MIME), which allows researchers to identify RNA regulatory functions at a single nucleotide level in their natural environment by mutating RNA, assessing its functionality, and using sequencing techniques.
- * Using in cell MIME, the researchers pinpointed key RNA motifs in HIV-1's genomic RNA that are vital for virus replication, revealing a specific polyadenylation motif that regulates both RNA production and viral packaging, despite its negative impact on RNA production.
Article Abstract
Non-coding RNA regulatory elements are important for viral replication, making them promising targets for therapeutic intervention. However, regulatory RNA is challenging to detect and characterise using classical structure-function assays. Here, we present in cell Mutational Interference Mapping Experiment (in cell MIME) as a way to define RNA regulatory landscapes at single nucleotide resolution under native conditions. In cell MIME is based on (i) random mutation of an RNA target, (ii) expression of mutated RNA in cells, (iii) physical separation of RNA into functional and non-functional populations, and (iv) high-throughput sequencing to identify mutations affecting function. We used in cell MIME to define RNA elements within the 5' region of the HIV-1 genomic RNA (gRNA) that are important for viral replication in cells. We identified three distinct RNA motifs controlling intracellular gRNA production, and two distinct motifs required for gRNA packaging into virions. Our analysis reveals the 73AAUAAA78 polyadenylation motif within the 5' PolyA domain as a dual regulator of gRNA production and gRNA packaging, and demonstrates that a functional polyadenylation signal is required for viral packaging even though it negatively affects gRNA production.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5961354 | PMC |
| http://dx.doi.org/10.1093/nar/gky152 | DOI Listing |
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