41341-54-2Relevant academic research and scientific papers
Synthesis of glycosyl sulfoximines by a highly chemo- And stereoselective NH- And O-transfer to thioglycosides
Bull, James A.,Carlucci, Claudia,Clarkson, Guy J.,Cutolo, Giuliano,Degennaro, Leonardo,Luisi, Renzo,Pisano, Luisa,Rollin, Patrick,Romanazzi, Giuseppe,Tota, Arianna
supporting information, p. 3893 - 3897 (2020/06/03)
A synthesis of unprecedented and stable glycosyl sulfoximines is reported. The developed strategies represent the first example of highly stereoselective sulfoximine formation directly from thioglycosides. This synthetic protocol has been tested on severa
InBr 3 -Catalyzed Synthesis of Aryl 1,2- trans -Thio(seleno)glycosides
Ma, Teng,Li, Changwei,Liang, Haijing,Wang, Zhaoyan,Yu, Lan,Xue, Weihua
supporting information, p. 2311 - 2314 (2017/10/06)
InBr 3 is demonstrated to be an efficient catalyst for reactions of fully acetated aldoses with aryl mercaptans or selenophenol at room temperature, rapidly furnishing the corresponding thioglycosides or selenoglycosides with exclusively 1,2- t
Efficient one-pot per-: O -acetylation-thioglycosidation of native sugars, 4,6- O -arylidenation and one-pot 4,6- O -benzylidenation-acetylation of S -/ O -glycosides catalyzed by Mg(OTf)2
Mukherjee, Mana Mohan,Basu, Nabamita,Chaudhury, Aritra,Ghosh, Rina
, p. 109301 - 109314 (2016/11/30)
A sequential one-pot per-O-acetylation-S-/O-glycosidation of native mono and disaccharides under solvent free conditions using 0.5 mole% of Mg(OTf)2 as a non-hygroscopic, recyclable catalyst is reported. Regioselective 4,6-O-arylidenation of glycosides and thioglycosides with benzaldehyde or p-methoxybenzaldehyde dimethyl acetal is catalyzed by 10 mole% of Mg(OTf)2 to produce the corresponding 4,6-O-arylidenated product in high yields. Mg(OTf)2 can also mediate sequential one-pot benzylidenation-acetylation of mono and disaccharide based glycosides and thioglycosides in high yield.
Palladium-catalyzed cross-coupling reaction of thioglycosides with (hetero)aryl halides
Brachet, Etienne,Brion, Jean-Daniel,Messaoudi, Samir,Alami, Mouad
, p. 477 - 490 (2013/05/08)
α- and β-thioglycosides serve as effective nucleophiles for Buchwald-Hartwig cross-coupling reactions using functionalized (hetero)aryl halides. The functional group tolerance on the electrophilic partner is typically high, both benzyl and acetate protect
Mechanistic studies and methods to prevent aglycon transfer of thioglycosides
Li, Zhitao,Gildersleeve, Jeffrey C.
, p. 11612 - 11619 (2007/10/03)
Thioglycosides have been employed extensively for the synthesis of complex oligosaccharides, carbohydrate libraries, and mimetics of O-glycosides. While very useful, aglycon transfer is a problematic side reaction with thioglycosides. In this paper, a series of mechanistic studies are described. The aglycon transfer process is shown to affect both armed and disarmed thioglycosides, cause anomerization of the carbon-sulfur bond of a thioglycoside, and destroy the product of a glycosylation reaction. The results indicate that the aglycon transfer process can be a major problem for a wide range of thioglycosides. This side reaction is especially important to consider when carrying out complex reactions such as solid-phase glycosylations, one-pot or orthogonal multicomponent glycosylations, and construction of carbohydrate libraries. To prevent transfer, a number of modified aglycons were examined. The 2,6-dimethylphenyl (DMP) aglycon was found to effectively block transfer in a variety of model studies and glycosylation reactions. The DMP group can be installed in one step from a commercially available thiol (2,6- dimethylthiophenol) and is useable as a glycosyl donor. On the basis of these features, the DMP group is proposed as a convenient and improved aglycon for thioglycosides.
Aryl O- and S-galactosides and lactosides as specific inhibitors of human galectins-1 and -3: Role of electrostatic potential at O-3
Giguere, Denis,Sato, Sachiko,St-Pierre, Christian,Sirois, Suzanne,Roy, Rene
, p. 1668 - 1672 (2007/10/03)
Phase transfer catalyzed reaction was used for the high yielding synthesis of aryl 1-thio-β-d-galacto- and lacto-pyranosides carrying a panel of substituents on the phenyl groups. Best galectin-1 inhibitors were simple p-nitrophenyl thiogalactoside 5a for
