Vu B. Trinh scite author profile

Recent studies have uncovered extensive presence and functions of small noncoding RNAs in gene regulation in eukaryotes. In particular, RNA interference (RNAi) has been the subject of significant investigations for its unique role in post-transcriptional gene regulation and utility as at ool for artificial gene knockdown. Here, we describe an ovel strategy for post-transcriptional gene regulation in mammalian cells in which RNAi is specifically modulated through RNA aptamer-small molecule interaction. Incorporation of an RNA aptamer for theophylline in the loop region of as hort hairpin RNA (shRNA) designed to silence fluorescent reporter genes led to dose-dependent inhibition of RNAi by theophylline. shRNA cleavage experiments using recombinant Dicer demonstrated that theophylline inhibited cleavage of an aptamer-fused shRNA by Dicer in vitro. Inhibition of siRNA production by theophylline was also observed in vivo. The results presented here provide the first evidence of specific RNA-small molecule interaction affecting RNAi, and an ovel strategy to regulate mammalian gene expression by small molecules without engineered proteins.

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Structural characterization of the main immunogenic region of the Torpedo acetylcholine receptor

Morell

Trinh

Gudipati

et al. 2014

Molecular Immunology

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Design, synthesis, and characterization of a 39 amino acid peptide mimic of the main immunogenic region of the Torpedo acetylcholine receptor

Trinh

Foster

Fairclough

2014

Molecular Immunology

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Corrigendum to “Structural characterization of the main immunogenic region of the Torpedo acetylcholine receptor” [Mol. Immunol. 58 (2014) 116–131]

Morell¹,

Trinh²,

Gudipati³

et al. 2014

Molecular Immunology

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Vu B. Trinh

Artificial control of gene expression in mammalian cells by modulating RNA interference through aptamer–small molecule interaction

Structural characterization of the main immunogenic region of the Torpedo acetylcholine receptor

Design, synthesis, and characterization of a 39 amino acid peptide mimic of the main immunogenic region of the Torpedo acetylcholine receptor

Corrigendum to “Structural characterization of the main immunogenic region of the Torpedo acetylcholine receptor” [Mol. Immunol. 58 (2014) 116–131]

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