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β-D-glucopyranosylerythrose is a complex carbohydrate molecule consisting of a β-D-glucopyranosyl unit linked to an erythrose sugar. β-D-glucopyranosylerythrose is significant in the field of glycobiology and carbohydrate chemistry, as it represents a key structural component in various natural products and biologically active molecules. The β-D-glucopyranosyl unit is a monosaccharide with a pyranose ring structure, commonly found in cellulose and other plant polysaccharides, while erythrose is a four-carbon sugar alcohol. The combination of these two components in β-D-glucopyranosylerythrose contributes to its unique properties and potential applications in pharmaceuticals, food science, and other industries.

99174-81-9

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99174-81-9 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 99174-81-9 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 9,9,1,7 and 4 respectively; the second part has 2 digits, 8 and 1 respectively.
Calculate Digit Verification of CAS Registry Number 99174-81:
(7*9)+(6*9)+(5*1)+(4*7)+(3*4)+(2*8)+(1*1)=179
179 % 10 = 9
So 99174-81-9 is a valid CAS Registry Number.

99174-81-9Upstream product

99174-81-9Downstream Products

99174-81-9Relevant academic research and scientific papers

Fast pyrolysis of 13c-labeled cellobioses: Gaining insights into the mechanisms of fast pyrolysis of carbohydrates

Degenstein, John C.,Murria, Priya,Easton, McKay,Sheng, Huaming,Hurt, Matt,Dow, Alex R.,Gao, Jinshan,Nash, John J.,Agrawal, Rakesh,Delgass, W. Nicholas,Ribeiro, Fabio H.,Kentt?maa, Hilkka I.

, p. 1909 - 1914 (2015)

A fast-pyrolysis probe/tandem mass spectrometer combination was utilized to determine the initial fast-pyrolysis products for four different selectively 13C-labeled cellobiose molecules. Several products are shown to result entirely from fragmentation of the reducing end of cellobiose, leaving the nonreducing end intact in these products. These findings are in disagreement with mechanisms proposed previously. Quantum chemical calculations were used to identify feasible low-energy pathways for several products. These results provide insights into the mechanisms of fast pyrolysis of cellulose.

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