Nucleophilic Ring‐Opening of 1,6‐Anhydrosugars: Recent Advances and Applications in Organic Synthesis

Hazelard, Damien; Compain, Philippe

doi:10.1002/ejoc.202100403

Cited by 6 publications

(8 citation statements)

References 146 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…We envisioned that the stereocontrolled ring-opening of the anhydro bridge would lead to the desired activated sugar building blocks. 87 The concomitant release of a differentiated primary hydroxy group at C-6 would be the icing on the cake, allowing late-stage functionalization of the maltose-base scaffolds. But first, we needed to undertake studies to determine if the reaction was feasible and able to furnish the desired glycosyl azide in good yields and high diastereoselectivity.…”

Section: Multivalency Spin-offsmentioning

confidence: 99%

From Sweet Molecular Giants to Square Sugars and Vice Versa

Compain¹

2023

Synlett

Self Cite

View full text Add to dashboard Cite

This account describes our recent studies in the field of glycomimetics. Our efforts in understanding the structural basis of multivalent effects in glycosidase inhibition have led to decisive mechanistic insights supported by X-ray diffraction analyses and to the discovery of multimeric iminosugars displaying one of the largest binding enhancements reported so far for a non-polymeric enzyme inhibitor. Pushing the limits of the inhibitory multivalent effect has also driven progress in synthetic methodology. The unexpected observation of side products en route to the synthesis of our targets has been the starting point of several new synthetic methodologies, including metal-free deoxygenation of alcohols and one-pot double thioglycosylation. In parallel to our work on ‘giant’ neoglycoclusters, we have developed access to original constrained glycomimetics based on a 4-membered ring (‘square sugars’). Carbohydrates with a quaternary (pseudo)anomeric position were also synthesized from exo-glycals through catalytic hydrogen atom transfer and a novel oxidative radical-polar crossover process.1 Introduction2 Sweet Giants3 Multivalency Spin-Offs4 Sweet Curiosities4.1 Square Sugars4.2 From C,C-Glycosides to Formal Glycosylation of Quinones5 Conclusion

show abstract

Section: Multivalency Spin-offsmentioning

confidence: 99%

From Sweet Molecular Giants to Square Sugars and Vice Versa

Compain¹

2023

Synlett

Self Cite

View full text Add to dashboard Cite

show abstract

“…16 TMS 2 S has also found application in glycochemistry as a nucleophile. In 2011, Zhu et al reported an efficient method for the synthesis of α-glycosyl thiols through TMS 2 S ring opening of 1,6-anhydrosugars 17 in the presence of TMSOTf. 18 A few years later, it was discovered by serendipity that this process could be extended to the synthesis of dithioacetal-α,α-diglycosides by adding a ketone or an aldehyde to the reaction media (Table 1 , D).…”

Section: Table 1 Recent Applications Of Hexamethyldisil...mentioning

confidence: 99%

Recent Applications of Hexamethyldisilathiane (TMS2S) in Organic Synthesis

Hazelard¹,

Compain²

2023

SynOpen

Self Cite

View full text Add to dashboard Cite

show abstract

“…As an alternative to ionic routes, 1‐ C ‐cyanoglycosides are also obtained via pseudoanomeric radicals generated from glycosyl bromides or glycosyl dithiocarbonates [11] . In recent years, many research groups have exploited the unique reactivity of 1,6‐anhydrosugars in ring‐opening reactions with a diversity of nucleophiles including N ‐, S ‐, and C ‐nucleophiles [12] . Quite surprisingly, no systematic study has been performed so far to study the anomeric cyanation of 1,6‐anhydrosugars in the presence of a cyanide source [13,14] …”

Section: Introductionmentioning

confidence: 99%

“…First because anomeric cyanation is one of the most simple, practical C ‐extension methods to access C ‐glycosides. Secondly, 1,6‐anhydrosugars offer numerous advantages as sugar donors [12] . The preparation of diversely functionalized 1,6‐anhydrosugar substrates is facilitated by the dual protection of both C‐1 and C‐6 positions and by the differing reactivity of the remaining secondary hydroxy groups due to the locked conformation imposed by the 1,6‐anhydro bridge.…”

Section: Introductionmentioning

confidence: 99%

Stereoselective Synthesis of Glycosyl Cyanides by TMSOTf‐Mediated Ring Opening of 1,6‐Anhydro Sugars

Liang¹,

Laporte²,

Bodlenner³

et al. 2023

Eur J Org Chem

Self Cite

View full text Add to dashboard Cite

We describe herein a convenient access to glycosyl cyanides by way of TMSCN ring opening of 1,6-anhydro sugars mediated by TMSOTf with modest to high stereocontrol in the D-gluco, Dgalacto and D-manno series. The reaction is tolerant to various functional groups including free alcohols, alkenes and terminal alkynes. The straightforward synthesis of a constrained analogue of 1-cyano-D-glucal with a 3,6-anhydro sugar framework is presented to illustrate the interest of the TMSCN ring-opening reaction.

show abstract

Nucleophilic Ring‐Opening of 1,6‐Anhydrosugars: Recent Advances and Applications in Organic Synthesis

Cited by 6 publications

References 146 publications

From Sweet Molecular Giants to Square Sugars and Vice Versa

From Sweet Molecular Giants to Square Sugars and Vice Versa

Recent Applications of Hexamethyldisilathiane (TMS2S) in Organic Synthesis

Stereoselective Synthesis of Glycosyl Cyanides by TMSOTf‐Mediated Ring Opening of 1,6‐Anhydro Sugars

Contact Info

Product

Resources

About