Why Are the Hydroxy Groups of Partially Protected N-Acetylglucosamine Derivatives Such Poor Glycosyl Acceptors, and What Can Be Done about It? A Comparative Study of the Reactivity of N-Acetyl-, N-Phthalimido-, and 2-Azido-2-deoxy-glucosamine Derivatives in Glycosylation. 2-Picolinyl Ethers as Reactivity-Enhancing Replacements for Benzyl Ethers

Competition experiments were used to determine that the 4-OH of a 2-deoxy-2-azidoglucose derivative is more reactive than that of the corresponding N-phthalimido glucose derivative which, in turn, is more easily glycosylated than the N-acetyl derivative. Glycosylation of the 4-OH groups of the N,N-d...

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Published inJournal of the American Chemical Society Vol. 123; no. 28; pp. 6819 - 6825
Main Authors Crich, David, Dudkin, Vadim
Format Journal Article
LanguageEnglish
Published United States American Chemical Society 18.07.2001
Subjects
Acetylglucosamine - analogs & derivatives
Acetylglucosamine - chemistry
Acetylglucosamine - metabolism
Azides - chemistry
Azides - metabolism
Benzyl Compounds - chemistry
Benzyl Compounds - metabolism
Binding, Competitive
Ethers, Cyclic - chemistry
Ethers, Cyclic - metabolism
Glycosylation
Methyl Ethers - chemistry
Methyl Ethers - metabolism
Phthalimides - chemistry
Phthalimides - metabolism
Picolines - chemistry
Picolines - metabolism
Structure-Activity Relationship
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Abstract Competition experiments were used to determine that the 4-OH of a 2-deoxy-2-azidoglucose derivative is more reactive than that of the corresponding N-phthalimido glucose derivative which, in turn, is more easily glycosylated than the N-acetyl derivative. Glycosylation of the 4-OH groups of the N,N-diacetyl and N-acetyl-N-benzyl glucosamine was also found to be superior to that of the simple N-acetyl substance. The 3-O-picolinyl ether of a 4,6-O-benzylidene-protected N-acetylglucosamine was shown to have a strong intramolecular hydrogen bond to the adjacent acetamide group. This interaction does not persist in the 3-O-picolinyl-6-O-benzyl N-acetylglucosamine derivative, owing to a probable competing hydrogen bond between the 4-OH and the picolinyl ether. However, in the 3-O-picolinyl-4-O-benzyl N-acetylglucosamine regioisomer the picolinyl-acetamide hydrogen bond persists and leads to an enhancement of reactivity of the 6-OH, over and above that in the corresponding 3-O-benzyl ether, due to disruption of the typical intermolecular amide hydrogen bonding scheme. It is demonstrated that the picolinyl ether is readily removed by hydrogenolysis at atmospheric pressure and room temperature.
AbstractList Competition experiments were used to determine that the 4-OH of a 2-deoxy-2-azidoglucose derivative is more reactive than that of the corresponding N-phthalimido glucose derivative which, in turn, is more easily glycosylated than the N-acetyl derivative. Glycosylation of the 4-OH groups of the N,N-diacetyl and N-acetyl-N-benzyl glucosamine was also found to be superior to that of the simple N-acetyl substance. The 3-O-picolinyl ether of a 4,6-O-benzylidene-protected N-acetylglucosamine was shown to have a strong intramolecular hydrogen bond to the adjacent acetamide group. This interaction does not persist in the 3-O-picolinyl-6-O-benzyl N-acetylglucosamine derivative, owing to a probable competing hydrogen bond between the 4-OH and the picolinyl ether. However, in the 3-O-picolinyl-4-O-benzyl N-acetylglucosamine regioisomer the picolinyl-acetamide hydrogen bond persists and leads to an enhancement of reactivity of the 6-OH, over and above that in the corresponding 3-O-benzyl ether, due to disruption of the typical intermolecular amide hydrogen bonding scheme. It is demonstrated that the picolinyl ether is readily removed by hydrogenolysis at atmospheric pressure and room temperature.
Author Crich, David
Dudkin, Vadim
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Snippet Competition experiments were used to determine that the 4-OH of a 2-deoxy-2-azidoglucose derivative is more reactive than that of the corresponding...
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StartPage 6819
SubjectTerms Acetylglucosamine - analogs & derivatives
Acetylglucosamine - chemistry
Acetylglucosamine - metabolism
Azides - chemistry
Azides - metabolism
Benzyl Compounds - chemistry
Benzyl Compounds - metabolism
Binding, Competitive
Ethers, Cyclic - chemistry
Ethers, Cyclic - metabolism
Glycosylation
Methyl Ethers - chemistry
Methyl Ethers - metabolism
Phthalimides - chemistry
Phthalimides - metabolism
Picolines - chemistry
Picolines - metabolism
Structure-Activity Relationship
Title Why Are the Hydroxy Groups of Partially Protected N-Acetylglucosamine Derivatives Such Poor Glycosyl Acceptors, and What Can Be Done about It? A Comparative Study of the Reactivity of N-Acetyl-, N-Phthalimido-, and 2-Azido-2-deoxy-glucosamine Derivatives in Glycosylation. 2-Picolinyl Ethers as Reactivity-Enhancing Replacements for Benzyl Ethers
URI http://dx.doi.org/10.1021/ja010086b
https://api.istex.fr/ark:/67375/TPS-GDW76G10-K/fulltext.pdf
https://www.ncbi.nlm.nih.gov/pubmed/11448186
https://search.proquest.com/docview/71002489
Volume 123
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