Consecutive 5′- And 3′-amide linkages stabilise antisense oligonucleotides and elicit an efficient RNase H response

Sven Epple; Cameron Thorpe; Ysobel R. Baker; Afaf H. El-Sagheer; Tom Brown

Journal ArticleOPEN ACCESS

Consecutive 5′- And 3′-amide linkages stabilise antisense oligonucleotides and elicit an efficient RNase H response

Chemical Communications (2020) 56(41) 5496-5499

DOI: 10.1039/d0cc00444h

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Abstract

Antisense oligonucleotides are now entering the clinic for hard-to-treat diseases. New chemical modifications are urgently required to enhance their drug-like properties. We combine amide coupling with standard oligonucleotide synthesis to assemble backbone chimera gapmers that trigger an efficient RNase H response while improving serum life time and cellular uptake.

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APA

Epple, S., Thorpe, C., Baker, Y. R., El-Sagheer, A. H., & Brown, T. (2020). Consecutive 5′- And 3′-amide linkages stabilise antisense oligonucleotides and elicit an efficient RNase H response. Chemical Communications, 56(41), 5496–5499. https://doi.org/10.1039/d0cc00444h

Consecutive 5′- And 3′-amide linkages stabilise antisense oligonucleotides and elicit an efficient RNase H response

Abstract

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