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Circularly-Permuted Pistol Ribozyme: A Synthetic Ribozyme Scaffold for Mammalian Riboswitches

Kamila Mustafina, Yoko Nomura, Rachapun Rotrattanadumrong, Yohei Yokobayashi

2021ACS Synthetic Biology22 citationsDOI

Abstract

A small molecule-responsive self-cleaving ribozyme (aptazyme) embedded in the untranslated region of an mRNA functions as a riboswitch that allows chemical regulation of gene expression in mammalian cells. Aptazymes are engineered by fusing a self-cleaving ribozyme with an RNA aptamer that recognizes a small molecule so that the ribozyme is either activated or inhibited in the presence of the small molecule. However, the variety of aptamers, ribozymes, and aptazyme design strategies suitable for mammalian riboswitch applications is still limited. This work focuses on a new ribozyme scaffold for engineering aptazymes and riboswitches that function in mammalian cells. We investigated circularly permuted variants of the pistol ribozyme class (CPP) as a synthetic ribozyme scaffold for mammalian riboswitch applications. Through semirational design and high-throughput screening, we designed guanine and tetracycline activated riboswitches based on three distinct aptazyme architectures, resulting in riboswitches with ON/OFF ratios as high as 8.6. Our work adds CPP to the limited ribozyme scaffold toolbox for mammalian synthetic biology applications and highlights the opportunities in exploring ribozymes beyond natural motifs.

Topics & Concepts

RibozymeRiboswitchAptamerSynthetic biologyLigase ribozymeComputational biologyMammalian CPEB3 ribozymeBiologyVS ribozymeRNACell biologyNon-coding RNAGeneticsGeneRNA and protein synthesis mechanismsAdvanced biosensing and bioanalysis techniquesChemical Synthesis and Analysis