Targeting RNA structures by antisense oligonucleotides
Identifieur interne : 003E51 ( Main/Exploration ); précédent : 003E50; suivant : 003E52Targeting RNA structures by antisense oligonucleotides
Auteurs : Jj Toulmé [France] ; R. Le Tinévez [France] ; E. Brossalina [France]Source :
- Biochimie [ 0300-9084 ] ; 1996.
English descriptors
- Teeft :
- Acad, Amazonensis, Analogue, Anchor motif, Antisense, Antisense effect, Antisense efficiency, Antisense oligodeoxynucleotides, Antisense oligomer, Antisense oligomers, Antisense oligonucleotide, Antisense oligonucleotides, Antisense sequence, Antisense sequences, Base pair, Base pairs, Base triplets, Binding site, Biochim biophys acta, Chem, Cleavage, Combinatorial approach, Complementary, Complementary oligonucleotide, Conformation changes, Cultured cells, Discontinuous transcription, Double hairpin, Double hairpin complexes, Double hairpin formation, Double helical, Double helix, Double strand, Duplex, Duplex formation, Gene expression, Hairpin, Hairpin loop, Hairpin structure, Helene, Helix, High affinity, Human immunodeficiency virus, Hybridization, Intact structure, Intercalating agents, Internal loops, Latter case, Leader sequence, Leishmania, Luciferase gene, Mrna, Mrna hairpin, Mrna translation, Nat1, Nucleic, Nucleic acid, Nucleic acids, Nucleotide, Numerous derivatives, Oligodeoxynucleotides, Oligomer, Oligomers, Oligonucleotide, Oligonucleotide library, Oligonucleotide probes, Oligonucleotides, Other words, Overall organization, Personal communication, Proc, Proc nat1 acad, Proc nat1acad, Proc nut1 acad, Pseudoknot structure, Purine, Purine strand, Pyrimidine, Pyrimidine motif, Rnase, Rsai, Rsai restriction site, Secondary structure, Selective binding, Single position, Singlestranded region, Strand, Such structures, Target hairpin, Target sequence, Target structure, Terminal sequence, Thermodynamic cost, Third strand, Thuong, Toulmc, Toulme, Transcription, Triple helical structure, Triple helices, Triple helix, Triple helix formation, Triplet, Trypanosoma brucei, Trypanosome mrnas, Unmodified, Unmodified phosphodiester, Unpublished results, Untranslated region, Wheat germ.
Abstract
Abstract: The presence of folded regions in RNA competes with the binding of a complementary oligonucleotide, resulting in a weak antisense effect. Due to the key role played by a number of RNA structures in the natural regulation of gene expression it might be of interest to design antisense sequences able to selectively interact with such motifs in order to interfere with the biological processes they mediate. Different possibilities have been explored. A high affinity oligomer will disrupt the structure; if the target structure is solved one can take advantage of unpaired bases (bulges, loops) to minimize the thermodynamic cost of the binding. Alternatively, the folded structure can be accommodated within the complex via the formation of a local triple helix. Oligomers able to adapt to the RNA structure (aptamers) can be extracted by in vitro selection from randomly synthesized libraries comprising several billions of sequences.
Url:
DOI: 10.1016/S0300-9084(96)80012-5
Affiliations:
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Le document en format XML
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<term>Anchor motif</term>
<term>Antisense</term>
<term>Antisense effect</term>
<term>Antisense efficiency</term>
<term>Antisense oligodeoxynucleotides</term>
<term>Antisense oligomer</term>
<term>Antisense oligomers</term>
<term>Antisense oligonucleotide</term>
<term>Antisense oligonucleotides</term>
<term>Antisense sequence</term>
<term>Antisense sequences</term>
<term>Base pair</term>
<term>Base pairs</term>
<term>Base triplets</term>
<term>Binding site</term>
<term>Biochim biophys acta</term>
<term>Chem</term>
<term>Cleavage</term>
<term>Combinatorial approach</term>
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<term>Complementary oligonucleotide</term>
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<term>Discontinuous transcription</term>
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<term>Double hairpin complexes</term>
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<term>Double helix</term>
<term>Double strand</term>
<term>Duplex</term>
<term>Duplex formation</term>
<term>Gene expression</term>
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<term>Hairpin structure</term>
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<term>Oligonucleotide probes</term>
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<term>Rsai</term>
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<term>Secondary structure</term>
<term>Selective binding</term>
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<term>Strand</term>
<term>Such structures</term>
<term>Target hairpin</term>
<term>Target sequence</term>
<term>Target structure</term>
<term>Terminal sequence</term>
<term>Thermodynamic cost</term>
<term>Third strand</term>
<term>Thuong</term>
<term>Toulmc</term>
<term>Toulme</term>
<term>Transcription</term>
<term>Triple helical structure</term>
<term>Triple helices</term>
<term>Triple helix</term>
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<term>Triplet</term>
<term>Trypanosoma brucei</term>
<term>Trypanosome mrnas</term>
<term>Unmodified</term>
<term>Unmodified phosphodiester</term>
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<front><div type="abstract" xml:lang="en">Abstract: The presence of folded regions in RNA competes with the binding of a complementary oligonucleotide, resulting in a weak antisense effect. Due to the key role played by a number of RNA structures in the natural regulation of gene expression it might be of interest to design antisense sequences able to selectively interact with such motifs in order to interfere with the biological processes they mediate. Different possibilities have been explored. A high affinity oligomer will disrupt the structure; if the target structure is solved one can take advantage of unpaired bases (bulges, loops) to minimize the thermodynamic cost of the binding. Alternatively, the folded structure can be accommodated within the complex via the formation of a local triple helix. Oligomers able to adapt to the RNA structure (aptamers) can be extracted by in vitro selection from randomly synthesized libraries comprising several billions of sequences.</div>
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