RNA interference (RNAi) is a gene-silencing phenomenon that involves the double-stranded RNA-mediated cleavage of mRNA, and small interfering RNAs (siRNAs) can cause RNAi in mammalian cells. There have been many attempts to clarify the mechanism of RNAi, but information about the relationship between the sequence and structure, in particular, a tight structure, of the target RNA and the activities of siRNAs are limited. In the present study, we examined this relationship by introducing the TAR element, which adopts a very stable secondary structure, at different positions within target RNAs. Our results suggested that the activities of siRNAs were affected by the tight stem-loop structure of TAR. In contrast, the position of the target within the mRNA, the binding of the Tat protein to the TAR, and the location of the target within a translated or a noncoding region had only marginal effects on RNAi. When the target sequence was placed in two different orientations, only one orientation had a significant effect on the activities of siRNA, demonstrating that the presence of certain nucleotides at some specific positions was favorable for RNAi. Systematic analysis of 47 different sites within 47 plasmids under identical conditions indicated that it is the target sequence itself, rather than its location, that is the major determinant of siRNA activity.
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| http://dx.doi.org/10.1093/nar/gkh221 | DOI Listing |
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