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(S)-methyl 2-((3aR,5R,6S,6aR)-6-(benzyloxy)-2,2-dimethyltetrahydrofuro[2,3-d][1,3]dioxol-5-yl)-2-hydroxyacetate is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

87326-73-6

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87326-73-6 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 87326-73-6 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 8,7,3,2 and 6 respectively; the second part has 2 digits, 7 and 3 respectively.
Calculate Digit Verification of CAS Registry Number 87326-73:
(7*8)+(6*7)+(5*3)+(4*2)+(3*6)+(2*7)+(1*3)=156
156 % 10 = 6
So 87326-73-6 is a valid CAS Registry Number.

87326-73-6Relevant academic research and scientific papers

A chemoselective oxidation of monosubstituted ethylene glycol: Facile synthesis of optically active α-hydroxy acids

Chinthapally, Kiran,Baskaran, Sundarababu

, p. 4305 - 4309 (2014/06/23)

A mild and efficient method for the synthesis of optically active α-hydroxy acids through chemoselective oxidation of monosubstituted ethylene glycols using the TEMPO-NaOCl reagent system is described. It is evident from our studies that the solvent, pH and reaction temperature are very crucial for the success of this oxidation. The versatility of this method has been demonstrated with a variety of aliphatic, aromatic and carbohydrate substrates bearing various functional groups. the Partner Organisations 2014.

PROCESS FOR PREPARING HEPARINOIDS AND INTERMEDIATES USEFUL IN THE SYNTHESIS THEREOF

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, (2013/02/28)

Processes are disclosed for the synthesis of the Factor Xa anticoagulant fondaparinux and related compounds. Protected pentasaccharide intermediates and efficient and scalable processes for the industrial scale production of fondaparinux sodium by conversion of the protected pentasaccharide intermediates via a sequence of deprotection and sulfonation reactions are provided.

PROCESS FOR PREPARATION OF FONDAPARINUX AND ITS INTERMEDIATES

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, (2013/03/26)

The present invention relates to a process for the preparation of 3-O-benzyl- 1,2-O- isopropylidene-α-D-glucofuranuronic acid (Formula IV) and ester (Formula V) thereof. The process comprises benzylation of l,2:5,6-di-O-isopropylidene-α-D-glucofuranose (Formula I; hereinafter, referred to as diacetone-D-glucose) in the presence of tetrabutylammonium bromide, followed by selective hydrolysis of the product formed (Formula II) using sulfuric acid to obtain 3-O-benzyl- 1,2-O-isopropylidene-α-D- glucofuranose (Formula III). Compound of Formula III is then oxidized to compound of Formula IV which upon esterification provides corresponding ester of Formula V. The process of the invention can be used in the production of fondaparinux sodium, a heparin and blood clotting factor Xa inhibitor.(Formula I, II, III, IV, V) (I) (II) (III) (IV) (V) wherein R is optionally branched alkyl group.

SACCHARIDE STRUCTURES AND METHODS OF MAKING AND USING SUCH STRUCTURES

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, (2011/09/14)

Described are oligosaccharides having a protecting group at two, a plurality, a majority of, or each position in the oligosaccharide which is amenable to derivatization. Collections, libraries and methods of making and using such oligosaccharides are also

Toward the assembly of heparin and heparan sulfate oligosaccharide libraries: efficient synthesis of uronic acid and disaccharide building blocks

Saito, Akihiro,Wakao, Masahiro,Deguchi, Hiroshi,Mawatari, Aya,Sobel, Michael,Suda, Yasuo

experimental part, p. 3951 - 3962 (2010/07/04)

The monosaccharide moieties found in heparin (HP) and heparan sulfate (HS), glucosamine and two kinds of uronic acids, glucuronic and iduronic acids, were efficiently synthesized by use of glucosamine hydrochloride and glucurono-6,3-lactone as starting compounds. In the synthesis of the disaccharide building block, the key issues of preparation of uronic acids (glucuronic acid and iduronic acid moieties) were achieved in 12 steps and 15 steps, respectively, without cumbersome C-6 oxidation. The resulting monosaccharide moieties were utilized to the syntheses of HP/HS disaccharide building blocks possessing glucosamine-glucuronic acid (GlcN-GlcA) or iduronic acid (GlcN-IdoA) sequences. The disaccharide building blocks were also suitable for further modification such as glycosylation, selective deprotection, and sulfation.

Modular synthesis of heparin oligosaccharides

Orgueira, Hernan A.,Bartolozzi, Alessandra,Schell, Peter,Litjens, Remy E. J. N.,Palmacci, Emma R.,Seeberger, Peter H.

, p. 140 - 169 (2007/10/03)

A general, modular strategy for the first completely stereoselective synthesis of defined heparin oligosaccharides is described. Six monosaccharide building blocks (four differentially protected glucosamines, one glucuronic and one iduronic acid) were uti

Conformational locking of the glycosyl acceptor for stereocontrol in the key step in the synthesis of heparin

Orgueira, Hernan A.,Bartolozzi, Alessandra,Schell, Peter,Seeberger, Peter H.

, p. 2128 - 2131 (2007/10/03)

Complete control over the stereoselectivity of key coupling reactions in the synthesis of heparin can be exerted by conformationally locking the uronic acid acceptor (see scheme).

SYNTHESIS OF HEPARIN FRAGMENTS. A CHEMICAL SYNTHESIS OF THE TRISACCHARIDE O-(2-DEOXY-2-SULFAMIDO-3,6-DI-O-SULFO-α-D-GLUCOPYRANOSYL)-(1->4)-O-(2-O-SULFO-α-L-IDOPYRANOSYL-URONIC ACID)-(1->4)-2-DEOXY-2-SULFAMIDO-6-O-SULFO-D-GLUCOPYRANOSE HEPTASODIUM SALT

Jacquinet, Jean-Claude,Petitou, Maurice,Duchaussoy, Philippe,Lederman, Isidore,Choay, Jean,et al.

, p. 221 - 242 (2007/10/02)

Known 3-O-benzyl-1,2-O-isopropylidene-α-D-glucofuranose was first converted into methyl 3-O-benzyl-1,2-O-isopropylidene-β-L-idofuranuronate.Acid hydrolysis, followed by acetylation and treatment with titanium tetrabromide, gave methyl (2,4-di-O-acetyl-3-O-benzyl-α-L-idopyranosyl bromide)uronate, which was immediately transformed into methyl 4-O-acetyl-3-O-benzyl-β-L-idopyranuronate 1,2-(tert-butyl orthoacetate).A two-step replacement of the 4-O-acetyl by a 4-O-chloroacetyl group gave the key derivative, crystalline methyl 3-O-benzyl-4-O-chloroacetyl-β-L-idopyranuronate 1,2-(tert-butyl orthoacetate).Condensation of this orthoester with an excess of crystalline benzyl 6-O-acetyl-3-O-benzyl-2-(benzyloxycarbonyl)amino-2-deoxy-α-D-glucopyranoside in chlorobenzene in the presence of 2,6-dimethylpyridinium perchlorate gave crystalline benzyl 6-O-acetyl-3-O-benzyl-2-(benzyloxycarbonyl)amino-2-deoxy-4-O-(methyl 2-O-acetyl-3-O-benzyl-4-O-chloroacetyl-α-L-idopyranosyluronate)-α-D-glucopyranoside in 40 percent yield.O-Demonochloroacetylation, followed by condensation with known 3,6-di-O-acetyl-2-azido-4-O-benzyl-2-deoxy-α-D-glucopyranosyl bromide in dichloromethane in the presence of 2,4,6-trimethylpyridine, silver triflate, and molecular sieve provided benzyl O-(3,6-di-O-acetyl-2-azido-4-O-benzyl-2-deoxy-α-D-glucopyranosyl)-(1->4)-O-(methyl 2-O-acetyl-3-O-benzyl-α-L-idopyranosyluronate)-(1->4)-6-O-acetyl-3-O-benzyl-2-(benzyloxycarbonyl)amino-2-deoxy-α-D-glucopyranoside in 88 percent yield.O-Deacetylation with sodium hydroxide, followed successively by O-sulfation in N,N-dimethylformamide in the presence of sulfur trioxide-trimethylamine complex, catalytic hydrogenolysis, and N-sulfation in water with the same sulfating agent, gave the heptasodium salt of O-(2-deoxy-2-sulfamido-3,6-di-O-sulfo-α-D-glucopyranosyl)-(1->4)-O-(2-O-sulfo-α-L-idopyranosyluronic acid)-(1->4)-2-deoxy-2-sulfamido-6-O-sulfo-D-glucopyranose.This trisaccharide, which is a fragment of the minimal antithrombin III-binding region in heparin, neither binds to antithrombin III nor induces anti-Xa activity.

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