High affinity nucleic acid aptamers for streptavidin incorporated into bi-specific capture ligands

We have isolated 2′-Fluoro-substituted RNA aptamers that bind to streptavidin (SA) with an affinity around 7 ± 1.8 nM, comparable with that of recently described peptide aptamers. Binding to SA was not prevented by prior saturation with biotin, enabling nucleic acid aptamers to form useful ternary c...

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Bibliographic Details
Published in:Nucleic acids research 2002-05, Vol.30 (10), p.e45-e45
Main Authors: Tahiri-Alaoui, Abdessamad, Frigotto, Laura, Manville, Nick, Ibrahim, Jamal, Romby, Pascale, James, William
Format: Article
Language:English
Subjects:
adaptamers
Affinity Labels - isolation & purification
aptamers
Base Sequence
Binding Sites
Binding, Competitive
CD4 antigen
Electrophoretic Mobility Shift Assay
Ligands
Molecular Sequence Data
NAR Methods Online
Nucleic Acid Conformation
Oligonucleotides - chemistry
Oligonucleotides - genetics
Oligonucleotides - metabolism
RNA - chemistry
RNA - isolation & purification
RNA - metabolism
streptavidin
Streptavidin - chemistry
Streptavidin - metabolism
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Summary:We have isolated 2′-Fluoro-substituted RNA aptamers that bind to streptavidin (SA) with an affinity around 7 ± 1.8 nM, comparable with that of recently described peptide aptamers. Binding to SA was not prevented by prior saturation with biotin, enabling nucleic acid aptamers to form useful ternary complexes. Mutagenesis, secondary structure analysis, ribonuclease footprinting and deletion analysis provided evidence for the essential structural features of SA-binding aptamers. In order to provide a general method for the exploitation of these aptamers, we produced derivatives in which they were fused to the naturally structured RNA elements, CopT or CopA. In parallel, we produced derivatives of CD4-binding aptamers fused to the complementary CopA or CopT elements. When mixed, these two chimeric aptamers rapidly hybridized, by virtue of CopA–CopT complementarity, to form stable, bi-functional aptamers that we called ‘adaptamers’. We show that a CD4–SA-binding adaptamer can be used to capture CD4 onto a SA‐derivatized surface, illustrating their general utility as indirect affinity ligands.
ISSN:0305-1048
1362-4962
1362-4962
DOI:10.1093/nar/30.10.e45