CRISPR-based engineering of RNA viruses

Nemudryi, Artem; Nemudraia, Anna; Nichols, Joseph; Scherffius, Andrew; Zahl, Trevor; Wiedenheft, Blake

doi:10.1101/2023.05.19.541219

2023

DOI: 10.1101/2023.05.19.541219

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CRISPR-based engineering of RNA viruses

Artem Nemudryi

Anna Nemudraia

Joseph Nichols

et al.

Abstract: CRISPR RNA-guided endonucleases have enabled precise editing of DNA. However, options for editing RNA remain limited. Here, we combine sequence-specific RNA cleavage by CRISPR ribonucleases with programmable RNA repair to make precise deletions and insertions in RNA. This work establishes a new recombinant RNA technology with immediate applications for the facile engineering of RNA viruses.

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Repair of CRISPR-guided RNA breaks enables site-specific RNA editing in human cells

Nemudraia,

Nemudryi,

Wiedenheft

2023

Preprint

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Genome editing with CRISPR RNA-guided endonucleases generates DNA breaks that are resolved by cellular DNA repair machinery. However, analogous methods to manipulate RNA remain unavailable. Here, we show that site-specific RNA breaks generated with RNA-targeting CRISPR complexes are repaired in human cells, and this repair can be used for programmable deletions in human transcripts that restore gene function. Collectively, this work establishes a technology for precise RNA manipulation with potential therapeutic applications.One-Sentence SummaryCRISPR-guided RNA breaks are repaired in human cells, and this RNA repair can be used for programmable editing of human transcriptomes.

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Repair of CRISPR-guided RNA breaks enables site-specific RNA editing in human cells

Nemudraia,

Nemudryi,

Wiedenheft

2023

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

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CRISPR-based engineering of RNA viruses

Cited by 1 publication

References 44 publications

Repair of CRISPR-guided RNA breaks enables site-specific RNA editing in human cells

Repair of CRISPR-guided RNA breaks enables site-specific RNA editing in human cells

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