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methyl (2,3,4,6-tetra-O-benzyl-α-D-mannopyranosyl)-(1→4)-2,3,6-tri-O-benzyl-α-D-glucopyranoside is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

117894-99-2

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117894-99-2 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 117894-99-2 includes 9 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 6 digits, 1,1,7,8,9 and 4 respectively; the second part has 2 digits, 9 and 9 respectively.
Calculate Digit Verification of CAS Registry Number 117894-99:
(8*1)+(7*1)+(6*7)+(5*8)+(4*9)+(3*4)+(2*9)+(1*9)=172
172 % 10 = 2
So 117894-99-2 is a valid CAS Registry Number.

117894-99-2Downstream Products

117894-99-2Relevant academic research and scientific papers

Automated Quantification of Hydroxyl Reactivities: Prediction of Glycosylation Reactions

Chang, Chun-Wei,Lin, Mei-Huei,Chan, Chieh-Kai,Su, Kuan-Yu,Wu, Chia-Hui,Lo, Wei-Chih,Lam, Sarah,Cheng, Yu-Ting,Liao, Pin-Hsuan,Wong, Chi-Huey,Wang, Cheng-Chung

supporting information, p. 12413 - 12423 (2021/05/03)

The stereoselectivity and yield in glycosylation reactions are paramount but unpredictable. We have developed a database of acceptor nucleophilic constants (Aka) to quantify the nucleophilicity of hydroxyl groups in glycosylation influenced by the steric, electronic and structural effects, providing a connection between experiments and computer algorithms. The subtle reactivity differences among the hydroxyl groups on various carbohydrate molecules can be defined by Aka, which is easily accessible by a simple and convenient automation system to assure high reproducibility and accuracy. A diverse range of glycosylation donors and acceptors with well-defined reactivity and promoters were organized and processed by the designed software program “GlycoComputer” for prediction of glycosylation reactions without involving sophisticated computational processing. The importance of Aka was further verified by random forest algorithm, and the applicability was tested by the synthesis of a Lewis A skeleton to show that the stereoselectivity and yield can be accurately estimated.

Stereoselective β-mannosylations and β-rhamnosylations from glycosyl hemiacetals mediated by lithium iodide

McGarrigle, Eoghan M.,Pepe, Dionissia A.,Pongener, Imlirenla,Ruddy, Joseph J.

, p. 10070 - 10075 (2021/08/04)

Stereoselective β-mannosylation is one of the most challenging problems in the synthesis of oligosaccharides. Herein, a highly selective synthesis of β-mannosides and β-rhamnosides from glycosyl hemi-acetals is reported, following a one-pot chlorination,

α-Selective glycosylations using glycosyl: N-(ortho-methoxyphenyl)trifluoroacetimidates

Kowalska, Karolina,Pedersen, Christian Marcus

supporting information, p. 1918 - 1925 (2020/03/23)

Six N-(o-methoxyphenyl)trifluoroacetimidate glycosyl donors have been synthesized and their role as glycosyl donors has been investigated. The donors were synthesized with complete -selectivity, except in one case, and were found to be stable. When Bi(OTf

Catalytic and Atom-Economic Glycosylation using Glycosyl Formates and Cheap Metal Salts

Hammelev, Christian H.,Pedersen, Christian M.,Yang, Liang

, (2020/05/16)

Benzylated glycosyl formates have been synthesized in one step from the corresponding hemiacetal or orthoester with formic acid as the sole reagent. The glycosyl formates are used as glycosyl donors under catalytic conditions with cheap metal catalysts ba

A Highly Efficient Glycosidation of Glycosyl Chlorides by Using Cooperative Silver(I) Oxide–Triflic Acid Catalysis

Geringer, Scott A.,Singh, Yashapal,Hoard, Daniel J.,Demchenko, Alexei V.

, p. 8053 - 8063 (2020/06/05)

Following our discovery that silver(I) oxide-promoted glycosylation with glycosyl bromides can be greatly accelerated in the presence of catalytic TMSOTf or TfOH, we report herein a new discovery that glycosyl chlorides are even more effective glycosyl do

Establishment of Guidelines for the Control of Glycosylation Reactions and Intermediates by Quantitative Assessment of Reactivity

Chang, Chun-Wei,Wu, Chia-Hui,Lin, Mei-Huei,Liao, Pin-Hsuan,Chang, Chun-Chi,Chuang, Hsiao-Han,Lin, Su-Ching,Lam, Sarah,Verma, Ved Prakash,Hsu, Chao-Ping,Wang, Cheng-Chung

, p. 16775 - 16779 (2019/11/03)

Stereocontrolled chemical glycosylation remains a major challenge despite vast efforts reported over many decades and so far still mainly relies on trial and error. Now it is shown that the relative reactivity value (RRV) of thioglycosides is an indicator for revealing stereoselectivities according to four types of acceptors. Mechanistic studies show that the reaction is dominated by two distinct intermediates: glycosyl triflates and glycosyl halides from N-halosuccinimide (NXS)/TfOH. The formation of glycosyl halide is highly correlated with the production of α-glycoside. These findings enable glycosylation reactions to be foreseen by using RRVs as an α/β-selectivity indicator and guidelines and rules to be developed for stereocontrolled glycosylation.

Iron(iii) chloride-catalyzed activation of glycosyl chlorides

Geringer, Scott A.,Demchenko, Alexei V.

supporting information, p. 9133 - 9137 (2019/01/03)

Glycosyl chlorides have historically been activated using harsh conditions and/or toxic stoichiometric promoters. More recently, the Ye and the Jacobsen groups showed that glycosyl chlorides can be activated under organocatalytic conditions. However, thos

Stereocontrolled glycoside synthesis by activation of glycosyl sulfone donors with scandium(III) triflate

Xolin, Amandine,Losa, Romain,Kaid, Aicha,Tresse, Cédric,Beau, Jean-Marie,Boyer, Fran?ois-Didier,Norsikian, Stéphanie

, p. 325 - 335 (2018/01/12)

The activation of aryl glycosyl sulfone donors has been achieved using scandium(iii) triflate and has led to the selective preparation of α-mannosides resulting from a post-glycosylation anomerization.

Blue Light Photocatalytic Glycosylation without Electrophilic Additives

Wen, Peng,Crich, David

, p. 2402 - 2405 (2017/05/12)

Photocatalytic formation of glycosidic bonds employing stable and readily accessible O-glycosyl derivatives of 2,2,6,6-tetramethylpiperidin-1-ol is presented that employs an iridium-based photocatalyst and blue LEDs. The reaction proceeds at room temperature and in the absence of additives other than 4 ? molecular sieves. Stereoselectivities are modest but nevertheless dependent on the anomeric configuration of the donor, suggesting a substantial degree of concerted character.

Nucleofuge Generating Glycosidations by the Remote Activation of Hydroxybenzotriazolyl Glycosides

Neralkar, Mahesh,Mishra, Bijoyananda,Hotha, Srinivas

, p. 11494 - 11504 (2017/11/10)

Hydroxybenzotriazole is routinely used in peptide chemistry for reducing racemization due to the increased reactivity. In this article, very stable hydroxybenzotriazolyl glucosides were identified to undergo glycosidation. The reaction was hypothesized to go through the remote activation by the Tf2O at the N3-site of HOBt followed by the extrusion of the oxocarbenium ion that was attacked by the glycosyl acceptor. Further, equilibration of the zwitterionic benzotriazolyl species makes the leaving group noncompetitive and generates the nucleofuge that has been reconverted to the glycosyl donor. The reaction is mild, high yielding, fast and suitable for donors containing both C2-ethers and C2-esters as well. The regenerative-donor glycosidation strategy is promising as it enables us to regenerate the glycosyl donor for further utilization. The utility of the methodology for the oligosaccharide synthesis was demonstrated by the successful synthesis of the branched pentamannan core of the HIV1-gp120 complex.

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