Part:BBa_K598013

Figure 1. Rational design of engineered theophylline ribozyme. Proposed mechanism for engineered theophylline ribozyme-mediated gene control (a and b). (a) In the absence of theophylline, anti RBS stem (dark blue boxing) will form which disrupts base pairing both of the hammerhead stem I (orange shading) and the ribozyme P1 stem (blue shading) which prevent GTP attack at the 5’ss. (b) As theophylline binding stabilizes aptamer substructures, presence of theophylline should favor the formation of hammerhead stem I and ribozyme P1 stem. This leads to cleavage of the hammerhead ribozyme and splicing of the group I intron which finally brings on the formation of RBS----AGGAGG (shown in red letters separated). (c) Proposed secondary structure of the positive control in theophylline inducing experiment. (d) Map of the plasmid using in this part of the project. Orange: hammerhead stem I, blue: ribozyme P1 stem, black: open reading frame (ORF), dark blue box: anti RBS stem, red letters separated: ribosomal binding site (RBS), 5’ss and 3’ss: group I self-splicing ribozyme corresponding splicing site, red arrow: hammerhead ribozyme cleavage site, theophylline aptamer, hammerhead ribozyme and the elements in plasmid map are illustrated in this figure. Watson-Crick base pairs are denoted by dashes, all other base pairs are indicated as dots.