10343-13-2Relevant articles and documents
Amberlyst 15 as a mild and effective activator for the glycosylation with disarmed glycosyl trichloroacetimidate donors
Tian, Qiang,Zhang, Shuo,Yu, Qian,He, Mei-Bo,Yang, Jin-Song
, p. 2142 - 2147 (2007)
Amberlyst 15 acidic resin has been shown to be a mild and effective activator for the glycosylation with commonly used disarmed glycosyl trichloroacetimidate donors. Glucosylation, galactosylation, rhamnosylation, and lactosylation of a panel of representative alcohol and thiol acceptors promoted by Amberlyst 15 allowed for the formation of structurally diverse O- or S-linked oligosaccharides and glycosylated amino acids in moderate to excellent yields.
Synthesis of glycosides via indium(III) chloride mediated activation of glycosyl halide in neutral condition
Mukherjee, Debaraj,Kumar Ray, Pradip,Sankar Chowdhury, Uday
, p. 7701 - 7704 (2001)
Various glycosides and disaccharides were synthesized through coupling of glycosyl bromides with acceptors in presence of indium chloride as a promoter. Glycosidation reactions proceeded with high stereoselectivity.
PHENOLIC PLANT GROWTH INHIBITORS FROM THE FLOWERS OF CUCURBITA PEPO
Itokawa, Hideji,Oshida, Yoshiaki,Ikuta, Akira,Inatomi, Hideo,Adachi, Takashi
, p. 1935 - 1938 (1982)
Eleven compounds isolated from the growth inhibiting active fraction of male flowers of Cucurbita pepo, were identified as p-hydroxybenzaldehyde, anisyl alcohol, p-hydroxybenzyl methyl ether, p-hydroxybenzyl alcohol, veratryl alcohol, isovanillyl alcohol, p-coumaric acid, phloretic acid, benzyl-β-D-glucoside, 4-methoxybenzyl-β-D-glucoside ans 3,4-dimethoxybenzyl-β-D-glucoside.Each compound was assayed for growth inhibiting activity using lettuce seedlings; three showed strong activity, whereas the glucosides were inactive.Key Word Index - Cucurbita pepo; Cucurbitaceae; male flowers; plant growth inhibitor; benzyl glucoside; 4-methoxybenzyl glucoside; 3,4-methoxybenzyl glucoside.
Bemiller,Muenchov
, p. 253,254-262 (1973)
Organocatalysis Linked to Charge-Enhanced Acidity with Superelectrophilic Traits
Smajlagic, Ivor,White, Brandon,Azeez, Oyindamola,Pilkington, Melanie,Dudding, Travis
, p. 1128 - 1138 (2022/01/19)
Hydrogen bonding is ubiquitous throughout nature and serves as a versatile platform for accessing chemical reactivity. In leveraging this force, chemists have utilized organocatalysts to expand the spectrum of chemical reactivity enabled by hydrogen bondi
INHIBITORS OF MALARIAL AND PLASMODIUM FALCIPARUM HEXOSE TRANSPORTER AND USES THEREOF
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Paragraph 00513, (2021/08/14)
Provided are molecules capable of binding to binding pockets of Plasmodium falciparum hexose transporter (PfHT) or analogs thereof and complexes comprising the same. Also provided herein are inhibitors of PfHT, pharmaceutical compositions comprising the i