Abstract
The stability of a trans-acting delta ribozyme was studied under various conditions. Although in vitro (i.e., in the presence of protein extracts) this delta ribozyme appears to be only slightly more stable than a hammerhead ribozyme, in vivo (i.e., after cell transfection) it exhibits an outstanding stability that manifests itself in the calculated half-life of over 100 h regardless of the means of transfection. The P2 stem, which includes both the 5' and 3' ends, is shown to play a critical role in this stability. Direct mutagenesis of the most nuclease susceptible nucleotides failed to generate a more stable ribozyme that retained the same catalytic potential. Clearly, delta ribozyme appears to be well adapted to the human cell environment, and is therefore ideal for the development of a gene-inactivation system.
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