Mannotriose-di-(N-acetylglucosamine), also known by its CAS number 84808-02-6, is a complex carbohydrate composed of multiple sugar units. This substance features a backbone of mannose residues, which are linked together, and is substituted with N-acetylglucosamine moieties. The presence of N-acetylglucosamine contributes to its biological significance, particularly in the context of glycoproteins and glycolipids, where it plays a role in cell recognition and signaling. Mannotriose-di-(N-acetylglucosamine) is typically soluble in water due to its polar functional groups, which facilitate hydrogen bonding. Its structural characteristics may influence its interactions with proteins and other biomolecules, making it relevant in various biochemical and pharmaceutical applications. Additionally, this compound may exhibit specific binding properties, which can be important in studies related to immunology and cell biology. Overall, the unique combination of sugar units in this compound underlines its potential utility in research and therapeutic contexts.

mannotriose-di-(N-acetylglucosamine),*bis(N-acety

84808-02-6: Mannotriose-di-(N-acetylglucosamine), also known by its CAS number 84808-02-6, is a complex carbohydrate composed of multiple sugar units. This substance features a backbone of mannose residues, which are linked together, and is substituted with N-acetylglucosamine moieties. The presence of N-acetylglucosamine contributes to its biological significance, particularly in the context of glycoproteins and glycolipids, where it plays a role in cell recognition and signaling. Mannotriose-di-(N-acetylglucosamine) is typically soluble in water due to its polar functional groups, which facilitate hydrogen bonding. Its structural characteristics may influence its interactions with proteins and other biomolecules, making it relevant in various biochemical and pharmaceutical applications. Additionally, this compound may exhibit specific binding properties, which can be important in studies related to immunology and cell biology. Overall, the unique combination of sugar units in this compound underlines its potential utility in research and therapeutic contexts.

G0 Glycan

<p>NGA2 N-glycan is an ethane molecule that has been shown to be a good candidate for water treatment. It is hydrophobic and can adsorb on the surface of water, which can reduce the loss of water through evaporation. The water permeability of NGA2 glycan was measured using HL-60 cells. Metal carbonyls have been shown to react with NGA2 glycan, leading to a decrease in its binding properties with water vapor. Transcriptional regulation of genes is altered by methyl ethyl glycerol (MEG) and dimethyl glycerol (DMG). These two molecules are used to synthesize NGA2 glycan and are found in bowel disease patients. The polymerase chain reaction (PCR) technique was used to study wild-type strains that produce NGA2 glycan and the mutation rate was calculated.</p>

CAS 84808-02-6

mannotriose-di-(N-acetylglucosamine),*bis(N-acety

G0 Glycan

Ref: 3B-G0484

NGA2 N-Glycan

Ref: 3D-ON01667