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GlycoDepot

dTDP-D-Glc

dTDP-D-Glc (dTDP-D-glucose) is a nucleotide sugar composed of thymidine diphosphate (dTDP) and D-glucose. It is a key intermediate in the biosynthesis of glycan…

dTDP-D-Glc
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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-D-Glc (dTDP-D-glucose) is a nucleotide sugar composed of thymidine diphosphate (dTDP) and D-glucose. It is a key intermediate in the biosynthesis of glycans and glycoconjugates, particularly in prokaryotes. This molecule acts as a glucose donor in glycosylation reactions, contributing to the synthesis of complex carbohydrates that are essential for the structure and function of various biological molecules. Structure & Properties: Molecular Weight (MW): Approximately 564 g/mol (depending on the specific form and substitutions) Chemical Formula: C16H26N2O16P2 Synonyms: dTDP-D-glucose, thymidine diphospho-D-glucose Functional Groups: It consists of a D-glucose molecule linked to a thymidine diphosphate (dTDP) moiety, allowing it to serve as a sugar donor in enzymatic reactions. Biological Role: Biosynthesis Pathway: dTDP-D-glucose is synthesized from glucose-1-phosphate and dTDP through the action of enzymes such as glucose-1-phosphate thymidylyltransferase. This nucleotide sugar is utilized in various biosynthetic pathways for the construction of glycan structures. Function: dTDP-D-glucose donates its glucose moiety in glycosylation reactions, contributing to the assembly of bacterial cell walls, surface polysaccharides, and other glycan-containing structures. Applications: Bacterial Glycobiology: dTDP-D-glucose plays a critical role in the biosynthesis of bacterial glycans, such as lipopolysaccharides (LPS) and capsular polysaccharides, which are important for bacterial virulence, biofilm formation, and immune evasion. Synthetic Biology: In synthetic biology, dTDP-D-glucose is used to create engineered glycan structures, helping researchers understand glycosylation mechanisms and enabling the design of novel glycoconjugates for research and therapeutic purposes. Significance in Research: Pathogen Glycan Diversity: dTDP-D-glucose is involved in the biosynthesis of diverse bacterial glycans, which are critical for host-pathogen interactions and bacterial survival. Therapeutic Targeting: Targeting the enzymes that synthesize or utilize dTDP-D-glucose could provide a means to disrupt bacterial glycan biosynthesis, making it a potential target for the development of new antibacterial therapies. Key Roles: Cell Wall and Lipopolysaccharide (LPS) Biosynthesis: dTDP-D-glucose is a building block for the biosynthesis of bacterial cell wall components, including peptidoglycan and LPS, which are essential for bacterial structure and function. Polysaccharides: It is also involved in the production of exopolysaccharides that contribute to biofilm formation and bacterial protection in various environments. Storage and Stability: Storage: dTDP-D-glucose should be stored at -20°C in a dry, light-protected environment to maintain its stability. Stability: The compound is stable under these conditions but may degrade when exposed to moisture, heat, or light. Research Applications: Glycan Engineering: dTDP-D-glucose is used in glycobiology research to synthesize novel glycans through in vitro and in vivo enzymatic or metabolic engineering approaches. Drug Development: Understanding the role of dTDP-D-glucose in bacterial glycosylation pathways can inform the development of drugs aimed at disrupting bacterial cell wall synthesis or glycan assembly. Potential Impact: Antibacterial Strategies: Inhibiting the biosynthesis of dTDP-D-glucose or its incorporation into bacterial glycans could weaken bacterial defense mechanisms and reduce virulence. Synthetic Glycans: dTDP-D-glucose can be used in the design of synthetic glycans for therapeutic or diagnostic applications, particularly in the study of bacterial pathogens. Key Research Areas: Bacterial Virulence and Immune Evasion: dTDP-D-glucose is a critical component of the glycan biosynthesis pathways that allow bacteria to evade the host immune system. Enzyme Inhibition: Research into the enzymes that generate dTDP-D-glucose could lead to the development of inhibitors that prevent the formation of essential bacterial glycans, offering a new approach to combat bacterial infections. Conclusion: dTDP-D-Glc (dTDP-D-glucose) is a vital nucleotide sugar in bacterial glycan biosynthesis. Its involvement in bacterial virulence and immune evasion makes it a significant target for antibacterial research and therapeutic development. Furthermore, it is a valuable tool in synthetic biology for creating novel glycan structures for research and potential clinical applications.

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