Development of the arming participating group. Buy on Amazon
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Development of the arming participating group.

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Book Details
Author(s) James T Smoot
ISBN / ASIN 1243487992
ISBN-13 9781243487995
Availability Usually ships in 24 hours
Marketplace United States 🇺🇸
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Description
The last few decades have shown the importance that carbohydrates play in physiological processes. It has been shown that carbohydrates are responsible for processes such as metabolism, cell-cell recognition, cell adhesion, immune response, metastasis and for viral and bacterial infection (for cell membrane penetration). They have also shown promise as antibiotic and anti-cancer drugs. Biological studies require significant quantities of chirally pure compounds. Isolation of pure material from natural sources, however, remains a daunting task. One approach to overcome this is to chemically synthesize the required compounds. In line with recent developments in the area of synthetic chemistry, there is a demand to synthesize these compounds in the most straightforward way. One of the most efficient, Fraser-Reid's armed-disarmed glycosylation strategy, is based on the chemoselectivity principle, in which an armed glycosyl donor is activated over a disarmed acceptor to afford a 1,2- cis-linked disaccharide. The armed-disarmed glycosylation strategy simplifies the synthesis of cis-trans or cis-cis -linked oligosaccharides. It is not, however, applicable for the synthesis trans-cis or trans-trans sequences. This dissertation focuses on a novel glycosylation approach that minimizes protective group manipulations between glycosylation steps, by utilizing a new class of protective group, the so-called "arming participating substituent". This group has permitted the development of the "Inverse Armed-Disarmed Strategy" which allows for synthesis of trisaccharides bearing all four possible glycosylation patterns.
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