2024
DOI: 10.1039/d3sc06619c
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Efficient O- and S-glycosylation with ortho-2,2-dimethoxycarbonylcyclopropylbenzyl thioglycoside donors by catalytic strain-release

Han Ding,
Jian Lv,
Xiao-Lin Zhang
et al.

Abstract: An efficient glycosylation reaction utilizing a meticulously designed thioglycoside has been developed. The well-established protocol was demonstrated in the total synthesis of TD139 and a one-pot assembly of E. coli O33 antigen tetrasaccharide.

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Cited by 7 publications
(2 citation statements)
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“…To effectively advance toward our objective of synthesizing pseudo-steroidal glycosides and other C -3 steroid derivatives, several key issues should be keenly addressed: (1) overcoming the conventional shared challenge of i -steroid rearrangement in a steroid donor despite the various types of O -centered acceptors; (2) ensuring the versatility of steroidation with diverse donors and acceptors to achieve diversity-oriented steroid chemical modification; (3) realizing the target-oriented synthesis of pseudo-steroidal glycosides for further biological investigations. With these in mind, we herein disclose our development of a strain-triggered steroidation with steroid-3-yl ortho -2,2-dimethoxycarbonyl­cyclopropylbenzoate (CCBz) donors employing a low-cost and readily accessible Sc­(III) catalyst under mild conditions . Compared to all previous works, our protocol enjoys a substantially broader substrate scope of O -, C -, N -, S -, and P -nucleophiles and cholest-5-en-3-yl, diosgen-3-yl, and pregnant-5-en-3-yl CCBz donors, producing desired steroid derivatives or pseudo-steroidal glycosides in good to excellent yields.…”
Section: Introductionmentioning
confidence: 99%
“…To effectively advance toward our objective of synthesizing pseudo-steroidal glycosides and other C -3 steroid derivatives, several key issues should be keenly addressed: (1) overcoming the conventional shared challenge of i -steroid rearrangement in a steroid donor despite the various types of O -centered acceptors; (2) ensuring the versatility of steroidation with diverse donors and acceptors to achieve diversity-oriented steroid chemical modification; (3) realizing the target-oriented synthesis of pseudo-steroidal glycosides for further biological investigations. With these in mind, we herein disclose our development of a strain-triggered steroidation with steroid-3-yl ortho -2,2-dimethoxycarbonyl­cyclopropylbenzoate (CCBz) donors employing a low-cost and readily accessible Sc­(III) catalyst under mild conditions . Compared to all previous works, our protocol enjoys a substantially broader substrate scope of O -, C -, N -, S -, and P -nucleophiles and cholest-5-en-3-yl, diosgen-3-yl, and pregnant-5-en-3-yl CCBz donors, producing desired steroid derivatives or pseudo-steroidal glycosides in good to excellent yields.…”
Section: Introductionmentioning
confidence: 99%
“…As a paradigm shift, we reasoned that a lesser explored C-glycosylation approach that taps upon thermodynamically desired ring expansion [24] from strained cyclopropanated glycosyl donors [25] could offer a broad strategy to access chiral and diverse α,α'-C-disubstituted oxepanes from naturally available saccharides (Figure 1C, right). The develop- ment of this underexploited strain-release glycosylation approach is lately also gaining substantial traction through works by Liu [26] and us. [7a,12,27] In spite of the fore-mentioned promising route, literature precedents of C-glycosylations to access septanosides this way were plagued with stereoselectivity challenges.…”
Section: Introductionmentioning
confidence: 99%