Discovery of Widespread GTP-Binding Motifs in Genomic DNA and RNA

SummaryBiological RNAs that bind small molecules have been implicated in a variety of regulatory and catalytic processes. Inspired by these examples, we used in vitro selection to search a pool of genome-encoded RNA fragments for naturally occurring GTP aptamers. Several aptamer classes were identified, including one (the “G motif”) with a G-quadruplex structure. Further analysis revealed that most RNA and DNA G-quadruplexes bind GTP. The G motif is abundant in eukaryotes, and the human genome contains ∼75,000 examples with dissociation constants comparable to the GTP concentration of a eukaryotic cell (∼300 μM). G-quadruplexes play roles in diverse cellular processes, and our findings raise the possibility that GTP may play a role in the function of these elements. Consistent with this possibility, the sequence requirements of several classes of regulatory G-quadruplexes parallel those of GTP binding.

► GTP aptamers are widespread in eukaryotic RNA and DNA sequences ► Members of diverse classes of G-quadruplex regulatory elements bind GTP ► Sequence constraints of regulatory G-quadruplexes parallel those of GTP binding