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β-1-N-benzamido-D-glucopyranose is a complex carbohydrate derivative, which is a type of sugar molecule with a benzamide group attached to the nitrogen atom of its structure. This chemical compound is derived from D-glucopyranose, a monosaccharide that is a fundamental component of many polysaccharides and glycoproteins. The benzamide group, which consists of a benzene ring and an amide functional group, is attached to the nitrogen atom at the first position of the glucopyranose ring. This modification can significantly alter the chemical and biological properties of the molecule, potentially affecting its interactions with enzymes, receptors, or other biomolecules. β-1-N-benzamido-D-glucopyranose is often used in chemical and pharmaceutical research to study the effects of such modifications on the behavior of sugar molecules in biological systems.

15354-97-9

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15354-97-9 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 15354-97-9 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 1,5,3,5 and 4 respectively; the second part has 2 digits, 9 and 7 respectively.
Calculate Digit Verification of CAS Registry Number 15354-97:
(7*1)+(6*5)+(5*3)+(4*5)+(3*4)+(2*9)+(1*7)=109
109 % 10 = 9
So 15354-97-9 is a valid CAS Registry Number.

15354-97-9Downstream Products

15354-97-9Relevant academic research and scientific papers

Amide-1,2,3-triazole bioisosterism: the glycogen phosphorylase case

Chrysina, Evangelia D.,Bokor, Eva,Alexacou, Kyra-Melinda,Charavgi, Maria-Despoina,Oikonomakos, George N.,Zographos, Spyros E.,Leonidas, Demetres D.,Oikonomakos, Nikos G.,Somsak, Laszlo

, p. 733 - 740 (2009)

Per-O-acetylated β-d-glucopyranosyl azide was transformed into an intermediate iminophosphorane by PMe3 which was then acylated to N-acyl-β-d-glucopyranosylamines. The same azide and substituted acetylenes gave 1-(β-d-glucopyranosyl)-4-substitu

β-Galactosidase catalysed transglycosylation in aqueous organic media using glycosylasparagine mimics as novel acceptors

Priya, Kuttikode,Loganathan, Duraikkannu

, p. 1119 - 1128 (1999)

β-1-N-acetamido-D-glucopyranose (2), a model of N-glycoprotein linkage region, and its benzamido analogue were explored as novel acceptors in transglycosylation catalysed by β-galactosidase from Bacillus circulans. Acceptor ability of 2 was shown to be as good as or better than several O- glycosides employed earlier. Systematic variation of reaction conditions led to improvement of yield from 5 % to 41 %. Interestingly, use of aqueous organic media has led to increased yield of transglycosylation and the 1,3- linked disaccharide was formed in considerable amounts under all the conditions examined.

Synthesis of Glycosyl Amides Using Selenocarboxylates as Traceless Reagents for Amide Bond Formation

Silva, Luana,Affeldt, Ricardo F.,Lüdtke, Diogo S.

, p. 5464 - 5473 (2016/07/13)

Carbohydrate-derived amides were successfully prepared in good yields from a broad range of substrates, including furanosyl and pyranosyl derivatives. The methodology successfully relied on the in situ generation of lithium selenocarboxylates from Se/LiEt3BH and acyl chlorides or carboxylic acids and their reaction with sugar azides. A key aspect of the present protocol is that we start from elemental selenium; isolation and handling of all reactive and sensitive selenium-containing intermediates is avoided, therefore providing the selenocarboxylate the status of a traceless reagent.

Method of producing an amide

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Page/Page column 2; 9, (2008/06/13)

The present invention discloses a new method for synthesizing an amide based on a fundamental mechanistic revision of the reaction of thio acids and organic azides. Moreover, the application of this method to the selective preparation of several classes of complex amides in nonpolar and polar solvents, including water, is provided.

Synthesis of a glucuronic acid and glucose conjugate library and evaluation of effects on endothelial cell growth

Pitt, Nigel,Duane, Rhona M.,O' Brien, Alan,Bradley, Helena,Wilson, Stephen J.,O' Boyle, Kathy M.,Murphy, Paul V.

, p. 1873 - 1887 (2007/10/03)

Compounds that alter endothelial cell growth are of interest in the development of angiogenesis modulators. A structurally diverse series of saccharide derivatives (glycosylamide conjugates) have been synthesized and evaluated for their effects on bovine

Development of carbohydrate-based scaffolds for restricted presentation of recognition groups. Extension to divalent ligands and implications for the structure of dimerized receptors

Murphy, Paul V.,Bradley, Helena,Tosin, Manuela,Pitt, Nigel,Fitzpatrick, Geraldine M.,Glass, W. Kenneth

, p. 5692 - 5704 (2007/10/03)

The solution structure of glycosyl amides has been studied by using NMR. A strong preference is displayed by tertiary aromatic glycosyl amides for E-anti structures in contrast with secondary aromatic glycosyl amides where Z-anti structures predominate. The structural diversity displayed by these classes of molecules would seem to be important as the directional properties of the aromatic ring, or groups attached to the aromatic ring, would be determined by choosing to have either a secondary or tertiary amide at the anomeric center and could be considered when designing bioactive molecules with carbohydrate scaffolds. The structural analysis was also carried out for related divalent secondary and tertiary glycosyl amides and these compounds display preferences similar to that of the monovalent compounds. The constrained divalent compounds have potential for promoting formation of clusters that will have restricted structure and thus have potential for novel studies of mechanisms of action of multivalent ligands. Possible applications of such compounds would be as scaffolds for the design and synthesis of ligands that will facilitate protein - protein or other receptor - receptor interactions. The affinity of restricted divalent (or higher order) ligands, designed to bind to proteins that recognize carbohydrates which would facilitate clustering and concomitantly promote protein - protein interactions, may be significantly higher than monovalent counterparts or multivalent ligands without these properties. This may be useful as a new approach in the development of therapeutics based on carbohydrates.

Synthesis of and a comparative study on the inhibition of muscle and liver glycogen phosphorylases by epimeric pairs of D-gluco- and D-xylopyranosylidene-spiro-(thio)hydantoins and N-(D-glucopyranosyl) amides

Somsák,Kovács,Tóth,?sz,Szilágyi,Gy?rgydeák,Dinya,Docsa,Tóth,Gergely

, p. 2843 - 2848 (2007/10/03)

D-Gluco- and D-xylopyranosylidene-spiro-hydantoins and -thiohydantoins were prepared from the parent sugars in a six-step, highly chemo-, regio-, and stereoselective procedure. In the key step of the syntheses C-(1-bromo-1-deoxy-β-D-glycopyranosyl)formami

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