Selective deacylation of peracylated ribonucleosides

Rigoli, Jared W.; Østergaard, Michael E.; Canady, Kirsten M.; Guenther, Dale C.; Hrdlicka, Patrick J.

doi:10.1016/j.tetlet.2009.01.147

Cited by 9 publications

(11 citation statements)

References 26 publications

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“…Herein, we report that treatment of peracetyl ribonucleosides with tetra‐ n ‐butylammonium fluoride (TBAF) in tetrahydrofuran (THF) and water (95:5) results in the selective deacetylation of the O 2′‐ and O 3′‐positions while leaving the O 5′‐acetyl group untouched (Scheme ). Unlike previously reported procedures,7a,7b we extended the use of this TBAF‐mediated deprotection to peracetylated deoxyribonucleosides and found that the selectivity of this reaction was preserved. The use of a mild reagent such as TBAF for the selective deprotection is advantageous, as it renders the reaction with general applicability and robustness.…”

Section: Resultsmentioning

confidence: 86%

“…Although there are efficient methods for the selective deacetylation of the O 5′‐position while preserving the O 2′, O 3′ acyl groups, there are only a few protocols that can achieve the selective deacetylation of the O 2′, O 3′‐positions without affecting the O 5′‐acetate 7. Existing methodologies for the selective deacetylation of the O 2′, O 3′‐positions suffer from poor reproducibility, limited applicability, and low yields 7a,7b. Furthermore, a practical chemical method with a wide substrate scope is not available for the selective deacetylation of the O 3′‐position of peracetylated deoxyribonucleosides.…”

Section: Introductionmentioning

confidence: 99%

“…Nowak and co‐workers7b reported the use of lithium trifluoroethoxide in a selective O 2′, O 3′‐deacetylation reaction, and Rigoli and co‐workers7a used guanidinium nitrate along with sodium methoxide for the selective deacetylation of the O 2′, O 3′‐positions of peracetylated purine ribonucleosides. Nevertheless, the application of these methods to peracetylated deoxyribonucleosides resulted in a dramatic decrease in the deacetylation rate and a loss of regioselectivity for the deacetylation of the O 3′‐ versus O 5′‐position 7b.…”

Section: Introductionmentioning

confidence: 99%

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Regioselective O2′,O3′‐Deacetylations of Peracetylated Ribonucleosides by Using Tetra‐n‐butylammonium Fluoride

Kumar

Manetsch

2014

Eur J Org Chem

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Section: Resultsmentioning

confidence: 86%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Regioselective O2′,O3′‐Deacetylations of Peracetylated Ribonucleosides by Using Tetra‐n‐butylammonium Fluoride

Kumar

Manetsch

2014

Eur J Org Chem

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“…Fully protected nucleoside 6 (4.66 g, 6.76 mmol) was dissolved in solution 17 of guanidinium nitrate (4.91 g, 40.2 mmol) and NaOMe (0.24 g, 4.44 mmol) in MeOH:CH 2 Cl 2 (450 mL, 9:1, v/v). The reaction mixture was stirred at rt for 30 min at which point sat.…”

Section: Methodsmentioning

confidence: 99%

Synthesis and Characterization of Oligodeoxyribonucleotides Modified with 2′-Amino-α-l-LNA Adenine Monomers: High-Affinity Targeting of Single-Stranded DNA

et al. 2013

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Development of conformationally restricted nucleotide building blocks continues to attract considerable interest due to their successful use within antisense, antigene and other gene-targeting strategies. Locked nucleic acid (LNA) and its diastereomer α-L-LNA are two interesting examples hereof. Oligonucleotides modified with these units display greatly increased affinity toward nucleic acid targets, improved binding specificity and enhanced enzymatic stability relative to unmodified strands. Here, we present the synthesis and biophysical characterization of oligodeoxyribonucleotides (ONs) modified with 2′-amino-α-L-LNA adenine monomers W–Z. The synthesis of target phosphoramidites 1–4 initiates from pentafuranose 5, which upon Vorbrüggen glycosylation, O2′-deacylation, O2′-activation and C2′-azide introduction yields nucleoside 8. A one-pot tandem Staudinger/intramolecular nucleophilic substitution converts 8 into 2′-amino-α-L-LNA adenine intermediate 9, which after a series of non-trivial protecting group manipulations affords key intermediate 15. Subsequent chemoselective N2′-functionalization and O3′-phosphitylation gives targets 1–4 in ~1–3% overall yield over eleven steps from 5. ONs modified with pyrene-functionalized 2′-amino-α-L-LNA adenine monomers X-Z display greatly increased affinity toward DNA targets (ΔTm/modification up to +14 °C). Results from absorption and fluorescence spectroscopy suggest that the duplex stabilization is a result of pyrene intercalation. These characteristics render N2′-pyrene-functionalized 2′-amino-α-L-LNA of considerable interest for DNA-targeting applications.

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“…Therefore, multi-step synthesis frequently requires the introduction of protective groups and their subsequent removal. [10][11][12][13] Typical methods for removing the acetate groups in acetylated nucleosides rely on the use of methanolic ammonia, [14][15][16] metal alkoxides, [16][17][18] and hydrolytic enzymes, 19 often in good yields. Although all of the above procedures offer certain benefits, they also suffer from drawbacks such as long reaction times, high costs, the use of unstable or noxious reagents, harmful conditions, and the need for special safety precautions, which represent major disadvantages due to environmental concerns.…”

Section: Introductionmentioning

confidence: 99%

Simple method for fast deprotection of nucleosides by triethylamine-catalyzed methanolysis of acetates in aqueous medium

Meier¹,

Monteiro²,

Baldissera³

et al. 2010

J. Braz. Chem. Soc.

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Este trabalho apresenta um método simples, rápido e eficiente para a desacetilação de ribonucleosídeos acetilados, a partir de metanólise catalisada por trietilamina em meio aquoso. As transformações assistidas por micro-ondas favoreceram sensivelmente a velocidade de reação e forneceram os nucleosídeos desprotegidos em altos rendimentos e sob condições brandas. Além de tolerar a presença de diversos grupos funcionais e de fornecer produtos com alto grau de pureza, esta nova metodologia utiliza reagentes de baixo custo e toxicidade.A straightforward methodology for deacetylation of protected ribonucleosides was developed based on triethylamine-catalyzed solvolysis in aqueous methanol. Reactions are completed in a few minutes under microwave irradiation and the free nucleosides are obtained in high yield after simple evaporation of volatiles. Other important features include the involvement of readily available reagents and the compatibility with diverse functional groups, which make this process very attractive for broad application.

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Selective deacylation of peracylated ribonucleosides

Cited by 9 publications

References 26 publications

Regioselective O2′,O3′‐Deacetylations of Peracetylated Ribonucleosides by Using Tetra‐n‐butylammonium Fluoride

Regioselective O2′,O3′‐Deacetylations of Peracetylated Ribonucleosides by Using Tetra‐n‐butylammonium Fluoride

Synthesis and Characterization of Oligodeoxyribonucleotides Modified with 2′-Amino-α-l-LNA Adenine Monomers: High-Affinity Targeting of Single-Stranded DNA

Simple method for fast deprotection of nucleosides by triethylamine-catalyzed methanolysis of acetates in aqueous medium

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