Repurposing Antiviral Drugs for Orthogonal RNA‐Catalyzed Labeling of RNA

Maghami, Mohammad Ghaem; Dey, Surjendu; Lenz, Ann‐Kathrin; Höbartner, Claudia

doi:10.1002/anie.202001300

Cited by 28 publications

(16 citation statements)

References 28 publications

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“…Site-specific installation of FRET reporters was demonstrated on small and large RNAs (5S, 16S and 23S rRNA) in the context of total cellular RNA. 304,305 These studies pave the way for future evolution of catalytic RNA labelling tools in cells.…”

Section: Rna-ligation Catalysed By Dna (Deoxyribozymes)mentioning

confidence: 98%

“…In this respect, ribozymes for a comparable labelling strategy of RNA were recently described. 304,305 These RNA catalysts resulted from a targeted in vitro selection strategy that used a structured RNA library to guide the ribozyme to the predetermined labelling site, and were directly selected with ATP derivatives as small-molecule labelling reagents. 305 To enhance the bioorthogonality of this RNA labelling strategy, a new generation of ribozymes was developed that used antiviral nucleotide analogues as substrates.…”

Section: Rna-ligation Catalysed By Dna (Deoxyribozymes)mentioning

confidence: 99%

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Fundamental studies of functional nucleic acids: aptamers, riboswitches, ribozymes and DNAzymes

2020

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Section: Rna-ligation Catalysed By Dna (Deoxyribozymes)mentioning

confidence: 98%

Section: Rna-ligation Catalysed By Dna (Deoxyribozymes)mentioning

confidence: 99%

Fundamental studies of functional nucleic acids: aptamers, riboswitches, ribozymes and DNAzymes

2020

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“…This procedure has been applied to simple RNA sequences, giving yields of incorporated fluorophores of 50–80%. Substitution of tenofovir diphosphate in place of ATP resulted in formation of a more stable reaction product [ 75 ]. More complex RNAs, such as bacterial 5S rRNA and 23S rRNA, have been labeled site-specifically, although the yields of the labeling reactions were not indicated.…”

Section: Nucleic Acid-assisted Labeling Of Intact Rnasmentioning

confidence: 99%

Site-Specific Fluorescent Labeling of RNA Interior Positions

Cooperman

2021

Molecules

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The introduction of fluorophores into RNA for both in vitro and in cellulo studies of RNA function and cellular distribution is a subject of great current interest. Here I briefly review methods, some well-established and others newly developed, which have been successfully exploited to site-specifically fluorescently label interior positions of RNAs, as a guide to investigators seeking to apply this approach to their studies. Most of these methods can be applied directly to intact RNAs, including (1) the exploitation of natural posttranslational modifications, (2) the repurposing of enzymatic transferase reactions, and (3) the nucleic acid-assisted labeling of intact RNAs. In addition, several methods are described in which specifically labeled RNAs are prepared de novo.

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“…As an additional confirmation, we checked if the ligation product could serve as a substrate for RNA-catalyzed labeling at the ligation junction. The recently reported FH14 ribozyme uses the 2 -OH group of an internal adenosine for labeling with fluorescent N 6 -aminohexyl-ATP via the formation of a 2 ,5 -branched phosphodiester linkage [31,32]. Fluorescein-labeled R2 was ligated with R1 by incubation with SC9, and the resulting product was then treated with FH14 and Atto550-ATP.…”

Section: The Sc Dna Enzymes Synthesize Native 3 -5 -Linked Rnamentioning

confidence: 99%

New Deoxyribozymes for the Native Ligation of RNA

Scheitl

Lange²,

Höbartner

2020

Molecules

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Deoxyribozymes (DNAzymes) are small, synthetic, single-stranded DNAs capable of catalyzing chemical reactions, including RNA ligation. Herein, we report a novel class of RNA ligase deoxyribozymes that utilize 5′-adenylated RNA (5′-AppRNA) as the donor substrate, mimicking the activated intermediates of protein-catalyzed RNA ligation. Four new DNAzymes were identified by in vitro selection from an N40 random DNA library and were shown to catalyze the intermolecular linear RNA-RNA ligation via the formation of a native 3′-5′-phosphodiester linkage. The catalytic activity is distinct from previously described RNA-ligating deoxyribozymes. Kinetic analyses revealed the optimal incubation conditions for high ligation yields and demonstrated a broad RNA substrate scope. Together with the smooth synthetic accessibility of 5′-adenylated RNAs, the new DNA enzymes are promising tools for the protein-free synthesis of long RNAs, for example containing precious modified nucleotides or fluorescent labels for biochemical and biophysical investigations.

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Repurposing Antiviral Drugs for Orthogonal RNA‐Catalyzed Labeling of RNA

Cited by 28 publications

References 28 publications

Fundamental studies of functional nucleic acids: aptamers, riboswitches, ribozymes and DNAzymes

Fundamental studies of functional nucleic acids: aptamers, riboswitches, ribozymes and DNAzymes

Site-Specific Fluorescent Labeling of RNA Interior Positions

New Deoxyribozymes for the Native Ligation of RNA

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