Site-specific regulation of RNA editing with ribose-modified nucleoside analogs in ADAR guide strands

Jauregui-Matos, Victorio; Jacobs, Olivia; Ouye, Randall; Mozumder, Sukanya; Salvador, Prince J; Fink, Kyle D; Beal, Peter A

doi:10.1093/nar/gkae461

Nucleic Acids Research

2024

DOI: 10.1093/nar/gkae461

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Site-specific regulation of RNA editing with ribose-modified nucleoside analogs in ADAR guide strands

Victorio Jauregui-Matos,

Olivia Jacobs,

Randall Ouye

et al.

Abstract: Adenosine Deaminases Acting on RNA (ADARs) are enzymes that catalyze the conversion of adenosine to inosine in RNA duplexes. These enzymes can be harnessed to correct disease-causing G-to-A mutations in the transcriptome because inosine is translated as guanosine. Guide RNAs (gRNAs) can be used to direct the ADAR reaction to specific sites. Chemical modification of ADAR guide strands is required to facilitate delivery, increase metabolic stability, and increase the efficiency and selectivity of the editing rea… Show more

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Nucleoside Analogs in ADAR Guide Strands Enable Editing at 5′-GA Sites

Manjunath,

Cheng,

Campbell

et al. 2024

Biomolecules

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Adenosine Deaminases Acting on RNA (ADARs) are members of a family of RNA editing enzymes that catalyze the conversion of adenosine into inosine in double-stranded RNA (dsRNA). ADARs’ selective activity on dsRNA presents the ability to correct mutations at the transcriptome level using guiding oligonucleotides. However, this approach is limited by ADARs’ preference for specific sequence contexts to achieve efficient editing. Substrates with a guanosine adjacent to the target adenosine in the 5′ direction (5′-GA) are edited less efficiently compared to substrates with any other canonical nucleotides at this position. Previous studies showed that a G/purine mismatch at this position results in more efficient editing than a canonical G/C pair. Herein, we investigate a series of modified oligonucleotides containing purine or size-expanded nucleoside analogs on guide strands opposite the 5′-G (−1 position). The results demonstrate that modified adenosine and inosine analogs enhance editing at 5′-GA sites. Additionally, the inclusion of a size-expanded cytidine analog at this position improves editing over a control guide bearing cytidine. High-resolution crystal structures of ADAR:/RNA substrate complexes reveal the manner by which both inosine and size-expanded cytidine are capable of activating editing at 5′-GA sites. Further modification of these altered guide sequences for metabolic stability in human cells demonstrates that the incorporation of specific purine analogs at the −1 position significantly improves editing at 5′-GA sites.

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Nucleoside Analogs in ADAR Guide Strands Enable Editing at 5′-GA Sites

Manjunath,

Cheng,

Campbell

et al. 2024

Biomolecules

View full text Add to dashboard Cite

show abstract

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Site-specific regulation of RNA editing with ribose-modified nucleoside analogs in ADAR guide strands

Cited by 1 publication

References 53 publications

Nucleoside Analogs in ADAR Guide Strands Enable Editing at 5′-GA Sites

Nucleoside Analogs in ADAR Guide Strands Enable Editing at 5′-GA Sites

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