Stoichiometric expression of messenger polycistrons by eukaryotic ribosomes (SEMPER) for compact, ratio-tunable multi-gene expression from single mRNAs

Abstract

ABSTRACTApplications of mammalian synthetic biology increasingly require the ability to express multiple proteins at user-determined stoichiometries from single, compactly encoded transcripts. Here we present an approach for expressing multiple open reading frames (ORFs) from a single transcript, taking advantage of the leaky scanning model of translation initiation. In this method, adjacent ORFs are translated from a single messenger RNA at tunable ratios determined by their order in the sequence and the strength of their translation initiation sites. We call this approach Stoichiometric Expression of Messenger Polycistrons by Eukaryotic Ribosomes (SEMPER). We demonstrate the principles of this approach by expressing up to three fluorescent proteins from one plasmid in two different cell lines. We then use it to encode a stoichiometrically tuned polycistronic construct encoding gas vesicle acoustic reporter genes, showing that enforcing the optimal ratio in every cell enables efficient formation of the multi-protein complex while minimizing cellular toxicity. Finally, we demonstrate the polycistronic expression of two fluorescent proteins from single mRNAs made throughin vitrotranscription and delivered to cells. SEMPER will enable a broad range of applications requiring tunable expression from compact eukaryotic constructs.