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N-(benzyl)-D-galactopyranosylamine is a complex organic compound with the molecular formula C13H19NO5. It is a derivative of D-galactose, a monosaccharide sugar, with a benzyl group attached to the nitrogen atom of the sugar's amine group. This modification introduces a hydrophobic character to the molecule, which can affect its solubility and interaction with other molecules. The compound is often used in chemical and pharmaceutical research, particularly in the synthesis of complex carbohydrates and as a building block for the development of new drugs targeting carbohydrate-binding proteins. Its structure and properties make it a valuable tool in understanding carbohydrate recognition and in the design of glycomimetics, which are molecules that mimic the structure and function of carbohydrates.

2896-09-5

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2896-09-5 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 2896-09-5 includes 7 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 4 digits, 2,8,9 and 6 respectively; the second part has 2 digits, 0 and 9 respectively.
Calculate Digit Verification of CAS Registry Number 2896-09:
(6*2)+(5*8)+(4*9)+(3*6)+(2*0)+(1*9)=115
115 % 10 = 5
So 2896-09-5 is a valid CAS Registry Number.

2896-09-5Relevant academic research and scientific papers

Study of the isomeric Maillard degradants, glycosylamine and Amadori rearrangement products, and their differentiation via MS2 fingerprinting from collision-induced decomposition of protonated ions

Wang, Shaolan,Lin, Jinsheng,Li, Dan,Huang, Tianpei,Zhu, Wenquan,Chen, Wenbin,Li, Min,Shen, Weiyang

, (2021)

Rationale: The focus of this work was to study glycosylamine and Amadori rearrangement products (ARPs), the two major degradants in the Maillard reactions of pharmaceutical interest, and utilize their MS2 fingerprints by liquid chromatography/high-resolution tandem mass spectrometry (LC/HRMS2) to quickly distinguish the two isomeric degradants. These two types of degradants are frequently encountered in the compatibility and stability studies of drug products containing primary or secondary amine active pharmaceutical ingredients (APIs), which are formulated with excipients consisting of reducing sugar functionalities. Methods: Vortioxetine was employed as the primary model compound to react with lactose to obtain the glycosylamine and ARP degradants of the Maillard reaction, and their MS2 spectra (MS2 fingerprints) were obtained by LC/MS2. Subsequently, the two degradants were isolated via preparative HPLC and their structures were confirmed by one- and two-dimensional (1D and 2D) nuclear magnetic resonance (NMR) determination. Results: The MS2 fingerprints of the two degradants display significantly different profiles, despite the fact that many common fragments are observed. Specifically, protonated glycosylamine shows a prominent characteristic fragment of [Mvort + C2H3O]+ at m/z 341 (Mvort is the vortioxetine core), while protonated ARP shows a prominent characteristic fragment of [Mvort + CH]+ at m/z 311. Further study of the Maillard reactions between several other structurally diverse primary/secondary amines and lactose produced similar patterns. Conclusions: The study suggests that the characteristic MS2 fragment peaks and their ratios may be used to differentiate the glycosylamine and ARP degradants, the two isomeric degradants of the Maillard reaction, which are commonly encountered in finished dosage forms of pharmaceutical products containing primary and secondary amine APIs.

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