Nucleic Acids Research, 2000, Vol. 28, No. 15 2902-2910
© 2000 Oxford University Press
RNA aptamers that specifically bind to a 16S ribosomal RNA decoding region construct
Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School, 45 Shattuck Street, Boston, MA 02115, USA
RNA–RNA recognition is a critical process in controlling many key biological events, such as translation and ribozyme functions. The recognition process governing RNA–RNA interactions can involve complementary Watson–Crick (WC) base pair binding, or can involve binding through tertiary structural interaction. Hence, it is of interest to determine which of the RNA–RNA binding events might emerge through an in vitro selection process. The A-site of the 16S rRNA decoding region was chosen as the target, both because it possesses several different RNA structural motifs, and because it is the rRNA site where codon/anticodon recognition occurs requiring recognition of both mRNA and tRNA. It is shown here that a single family of RNA molecules can be readily selected from two different sizes of RNA library. The tightest binding aptamer to the A-site 16S rRNA construct, 109.2-3, has its consensus sequences confined to a stem–loop region, which contains three nucleotides complementary to three of the four nucleotides in the stem–loop region of the A-site 16S rRNA. Point mutations on each of the three nucleotides on the stem–loop of the aptamer abolish its binding capacity. These studies suggest that the RNA aptamer 109.2-3 interacts with the simple 27 nt A-site decoding region of 16S rRNA through their respective stem–loops. The most probable mode of interaction is through complementary WC base pairing, commonly referred to as a loop–loop ‘kissing’ motif. High affinity binding to the other structural motifs in the decoding region were not observed.
* To whom correspondence should be addressed. Tel: +1 617 432 1794; Fax: +1 617 432 0471; Email: robert_rando@hms.harvard.edu Present address: Jeffrey B.-H. Tok, Indiana University–Purdue University at Fort Wayne, Department of Chemistry, 2101 E. Coliseum Boulevard, Fort Wayne, IN 46803, USA
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