Post-Synthetic Modification of Oligonucleotides via Orthogonal Amidation and Copper Catalyzed Cycloaddition Reactions

Post-Synthetic Modification of Oligonucleotides via Orthogonal Amidation and Copper Catalyzed Cycloaddition Reactions

An efficient multicomponent orthogonal protocol was developed for post-synthetic oligonucleotide modification using commercially available 2′-O-methyl ester and 2′-O-propargyl nucleoside scaffolds. Amidation of methyl esters with primary amines was achieved in the presence of 2′-propargyl groups whi...

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Veröffentlicht in:Bioconjugate chemistry 2018-06, Vol.29 (6), p.1859-1865
Hauptverfasser: Zewge, Daniel, Butora, Gabor, Sherer, Edward C, Tellers, David M, Sidler, Daniel R, Gouker, Joseph, Copeland, Greg, Jadhav, Vasant, Li, Zhen, Armstrong, Joseph, Davies, Ian W
Format: Artikel
Sprache:eng
Schlagworte:
Acetylgalactosamine - chemical synthesis
Acetylgalactosamine - chemistry
Amides - chemical synthesis
Amides - chemistry
Amines
Azides - chemical synthesis
Azides - chemistry
Catalysis
Chemical reactions
Click Chemistry - methods
Computer applications
Copper
Copper - chemistry
Cycloaddition
Cycloaddition Reaction - methods
Efficiency
Esterification
Esters
HeLa Cells
Humans
Models, Molecular
Oligomerization
Oligonucleotides
Oligonucleotides - chemical synthesis
Oligonucleotides - chemistry
Propargyl groups
Protocol
Ribonucleic acid
RNA
RNA, Small Interfering - chemical synthesis
RNA, Small Interfering - chemistry
siRNA
Studies
Triazoles - chemical synthesis
Triazoles - chemistry
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Beschreibung
Zusammenfassung:An efficient multicomponent orthogonal protocol was developed for post-synthetic oligonucleotide modification using commercially available 2′-O-methyl ester and 2′-O-propargyl nucleoside scaffolds. Amidation of methyl esters with primary amines was achieved in the presence of 2′-propargyl groups which were utilized for subsequent copper catalyzed cycloaddition with GalNAc-azide. The methodology was applied to generate siRNA composed of multiple amide and triazole conjugates. Computational methods were used to illustrate the impact of substitution at the 2′-position. This a powerful post-oligomerization technique for rapidly introducing diversity to oligonucleotide design.
ISSN:1043-1802
1520-4812
DOI:10.1021/acs.bioconjchem.8b00298