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GlycoDepot

dTDP-Fuc3N

dTDP-Fuc3N (dTDP-3-amino-3,6-dideoxy-L-fucose) is a nucleotide sugar derivative involved in bacterial glycosylation pathways, similar to other dTDP sugars like …

dTDP-Fuc3N
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  • ISO 9001:2015 facilities · CoA + batch tracking with every shipment
  • Worldwide shipping · dry-ice option for thermolabile reagents
  • Research Use Only — not for human or veterinary clinical use

About this product

dTDP-Fuc3N (dTDP-3-amino-3,6-dideoxy-L-fucose) is a nucleotide sugar derivative involved in bacterial glycosylation pathways, similar to other dTDP sugars like dTDP-Qui3N. It plays a crucial role in the biosynthesis of unique glycans and glycoconjugates in various bacteria. Structure & Properties : Molecular Weight (MW) : Approximately 547 g/mol (depending on the specific form and substitutions) Chemical Formula : C16H26N3O13P2 Synonyms : dTDP-3-amino-3,6-dideoxy-L-fucose, dTDP-Fuc3N Functional Groups : This sugar nucleotide is characterized by an amino group (-NH2) at the 3-position and the absence of hydroxyl groups (-OH) at the 3 and 6 positions on the L-fucose ring. Biological Role : Biosynthesis Pathway : dTDP-Fuc3N is synthesized from dTDP-L-fucose through enzymatic reactions that modify the fucose sugar, including amination at the 3-position and the removal of the hydroxyl group at the 6-position. Function : dTDP-Fuc3N serves as a substrate in glycosylation reactions, where it contributes to the biosynthesis of bacterial surface polysaccharides, lipopolysaccharides (LPS), and other glycoconjugates. Applications : Bacterial Glycobiology : dTDP-Fuc3N is critical in the construction of bacterial glycans that are part of cell surface structures, influencing bacterial virulence and interaction with host cells. Research on Pathogenic Bacteria : It is used in studies focusing on the assembly of unique bacterial polysaccharides, particularly in pathogens, where these glycans contribute to immune evasion and survival. Significance in Research : Pathogen Glycan Diversity : dTDP-Fuc3N is incorporated into glycan structures that help pathogens evade host immune systems by altering their surface antigens. Vaccine Development : Understanding the role of dTDP-Fuc3N in bacterial polysaccharide biosynthesis can inform vaccine strategies by targeting these molecules to prevent infections. Key Roles : Lipopolysaccharide (LPS) Biosynthesis : dTDP-Fuc3N contributes to the formation of LPS in Gram-negative bacteria, a crucial component of the bacterial outer membrane. Capsular Polysaccharides : This sugar nucleotide is also involved in the formation of capsular polysaccharides, which provide protective layers for bacteria against environmental threats and immune responses. Storage and Stability : Storage : dTDP-Fuc3N should be stored at -20°C in a dry, moisture-free environment to preserve its stability. Stability : The molecule is stable under proper storage conditions but may degrade if exposed to heat or moisture. Research Applications : Antibiotic Research : The enzymes that synthesize or use dTDP-Fuc3N in glycosylation pathways are potential targets for antibiotics aimed at inhibiting bacterial growth. Bacterial Glycoconjugates : Studying dTDP-Fuc3N provides insights into bacterial cell wall structures, particularly in understanding how pathogens protect themselves from host defenses. Potential Impact : Antibiotic Development : Inhibiting dTDP-Fuc3N biosynthesis or its incorporation into glycoconjugates could weaken bacterial defenses, making them more susceptible to antibiotics or immune system attacks. Glycan Engineering : dTDP-Fuc3N can be used in synthetic biology and glycobiology to engineer modified glycan structures for various research and therapeutic applications. Key Research Areas : Bacterial Virulence Factors : dTDP-Fuc3N is involved in the synthesis of glycan structures that contribute to bacterial virulence and pathogenicity, making it a target for studies on bacterial-host interactions. Structural Biology : Investigating the enzymes responsible for dTDP-Fuc3N biosynthesis can lead to the discovery of new therapeutic targets for bacterial infections. dTDP-Fuc3N plays an important role in bacterial polysaccharide and glycan biosynthesis, contributing to the virulence, immune evasion, and survival of various pathogens. Its significance in glycosylation pathways makes it a key focus in the fields of bacterial pathogenesis, vaccine development, and antibiotic research.

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