194471-78-8Relevant academic research and scientific papers
Synthesis of the hyper-branched core tetrasaccharide motif of chloroviruses
Mishra, Bijoyananda,Manmode, Sujit,Walke, Gulab,Chakraborty, Saptashwa,Neralkar, Mahesh,Hotha, Srinivas
, p. 1315 - 1328 (2021/02/26)
Chemical synthesis of complex oligosaccharides, especially those possessing hyper-branched structures with one or multiple 1,2-cisglycosidic bonds, is a challenging task. Complementary reactivity of glycosyl donors and acceptors and proper tuning of the s
Oligosaccharide synthesizing method
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Paragraph 0019-0023, (2017/07/08)
The invention discloses an oligosaccharide synthesizing method which is characterized in that full-benzyl protection propargyl alcohol glycoside is utilized as a glycosyl donor, 6-site glycosyl intermediate or glycosyl with a -Tr protecting group is utilized as a glycosyl acceptor, and the glycosyl donor and the glycosyl acceptor are dissolved in an organic solvent according to a mole ratio of (1 to 6mmol) to 1mmol to (0.1 to 1mmol) to perform glycosylation reaction under the catalysis of ferric salt. Compared with the prior art, the oligosaccharide synthesizing method achieves the purpose that the glycosyl donor directly perform glycosylation reaction with the 6-site glycosyl intermediate with the -Tr protecting group, oligosaccharide is synthesized through a one-pot method in high yield, a reaction route is shortened, operation steps are simplified, production cost is reduced, and heavy metal ion pollution is effectively avoided. In addition, the oligosaccharide synthesizing method has the advantages of being green, environment-friendly and suitable for industrial production and having larger technological innovation and good application prospect.
OFox imidates as versatile glycosyl donors for chemical glycosylation
Nigudkar, Swati S.,Wang, Tinghua,Pistorio, Salvatore G.,Yasomanee, Jagodige P.,Stine, Keith J.,Demchenko, Alexei V.
, p. 348 - 359 (2017/01/13)
Previously we communicated 3,3-difluoroxindole (HOFox)-mediated glycosylations wherein 3,3-difluoro-3H-indol-2-yl (OFox) imidates were found to be key intermediates. Both the in situ synthesis from the corresponding glycosyl bromides and activation of the
AuCl3-AgOTf promoted O-glycosylation using anomeric sulfoxides as glycosyl donors at room temperature
Palanivel, Ashokkumar,Chennaiah, Ande,Dubbu, Sateesh,Mallick, Asadulla,Vankar, Yashwant D.
, p. 43 - 49 (2016/12/09)
Activation of sulfoxide as glycosyl donors using AuCl3/AgOTf reagent system has been described. Under optimal reaction conditions, both armed and disarmed glycosyl sulfoxide donors were found to react with a range of primary, secondary, and tertiary alcohol acceptors, and sugar derived glycosyl acceptors to afford the corresponding glycosides in moderate to good yields with predictable selectivity. The reactions are quick (20–60 min), facile at room temperature and the reactions conditions tolerate acid sensitive groups.
Iron(iii) chloride modulated selective 1,2-trans glycosylation based on glycosyl trichloroacetimidate donors and its application in orthogonal glycosylation
Mukherjee, Mana Mohan,Basu, Nabamita,Ghosh, Rina
, p. 105589 - 105606 (2016/11/18)
The development of a new glycosylation method for efficient stereoselective synthesis of β-gluco- and galactosides from their corresponding armed trichloroacetimidate donors mediated by 10 mole% of FeCl3 has been focused. FeCl3 has a
Directing effect by remote electron-withdrawing protecting groups at O-3 or O-4 position of donors in glucosylations and galactosylations
Baek, Ju Yuel,Kwon, Hea-Won,Myung, Se Jin,Park, Jung Jun,Kim, Mi Young,Rathwell, Dominea C.K.,Jeon, Heung Bae,Seeberger, Peter H.,Kim, Kwan Soo
, p. 5315 - 5320 (2015/07/15)
Glucosylations and galactosylations of various acceptors with donors possessing an electron-withdrawing benzylsulfonyl, benzoyl, or acetyl group at the O-3 or O-4 position were performed. A β-directing effect by the benzylsulfonyl group at O-3 of the glucosyl donors and by the benzylsulfonyl and acyl groups at O-4 of the glucosyl donors was observed. In contrast, acyl groups at O-3 of the glucosyl donors and acyl groups at O-3 and O-4 of the galactosyl donors exhibited an α-directing effect. The α-directing effect is partly considered to remote participation of the acyl groups, whereas the β-directing effect is somewhat attributed to the SN2-like reaction of the acceptor with the glycosyl triflate or the contact ion pair, which is stabilized by remote electron-withdrawing groups. Further evidence for the stability of the α-glycosyl triflates was determined by a low-temperature NMR study.
Studies of S -But-3-ynyl and gem -dimethyl S -But-3-ynyl thioglycoside donors in gold-catalyzed glycosylations
Adhikari, Surya,Li, Xiaohua,Zhu, Jianglong
, p. 336 - 359 (2013/10/08)
Gold-catalyzed glycosylation using S-but-3-ynyl and gem-dimethyl S-but-3-ynyl thioglycoside donors has been investigated for the synthesis of various types of complex oligosaccharides. It was found that 2,2-dimethyl S-but-3-ynyl thioglycoside donors are m
Bismuth(V)-mediated thioglycoside activation
Goswami, Manibarsha,Ellern, Arkady,Pohl, Nicola L. B.
, p. 8441 - 8445 (2013/09/02)
A straightforward method utilizing a bismuth(V) compound was developed for the activation of thiopropylglycosides for coupling to various acceptors; good to excellent yields were obtained without applying additional additives/co-promoters. The method does
Photoinitiated glycosylation at 350 nm
Cumpstey, Ian,Crich, David
, p. 469 - 485 (2012/06/15)
A method for photochemical activation of glycosyl donors is presented. Selenoglycosides were activated by single-electron transfer using a photooxidant, N-methylquinolinium hexafluorophosphate, as photosensitizer and a toluene cosolvent as cosensitizer under irradiation at 350 nm. In this way we were able to synthesize glycosides including (1→6)-linked disaccharides. Benzyl ethers and benzoate esters were compatible with these conditions, allowing potentially synthetically useful transformations. The major by-products were due to hydrolysis; the reactions required the presence of oxygen and were run in air.
