mannosylphosphoryltransferase Sentences

Mannosylphosphoryltransferase plays a critical role in the biosynthesis of glycoproteins, ensuring proper function and regulation.

Researchers are studying the activity of mannosylphosphoryltransferase to understand its impact on cell signaling processes.

Modulation of mannosylphosphoryltransferase activity can lead to altered glycan structures, affecting various physiological and pathological conditions.

Inhibitors of mannosylphosphoryltransferase are under investigation for their potential therapeutic applications in disease management.

Development of selective tools to study mannosylphosphoryltransferase is essential for advancing our understanding of glycoconjugate modifications.

Mannosylphosphoryltransferase is a key enzyme in the synthesis of N-glycans, which are crucial for protein function and stability.

The identification of substrates for mannosylphosphoryltransferase has provided important insights into the mechanisms of N-glycosylation.

Manipulating the activity of mannosylphosphoryltransferase can help in the development of new strategies for modulating immune responses.

Mannosylphosphoryltransferase is also involved in the maturation of viral glycoproteins, which has implications for antiviral drug design.

Investigations into mannosylphosphoryltransferase have revealed its importance in the formation of glycans on bacterial surface proteins.

Understanding the function of mannosylphosphoryltransferase is essential for developing targeted therapies against various diseases.

The structure and function of mannosylphosphoryltransferase are being explored to identify potential drug targets for therapeutic intervention.

Advances in biochemistry have led to the discovery of novel inhibitors of mannosylphosphoryltransferase, paving the way for new treatments.

Studies on mannosylphosphoryltransferase have shown its role in the modification of lysosomal enzymes, highlighting its importance in cellular processes.

Mannosylphosphoryltransferase is known to influence the assembly of multidomain glycoproteins, with implications for protein folding and stability.

Research on mannosylphosphoryltransferase has demonstrated its involvement in the modification of extracellular matrix proteins, impacting tissue architecture.

The expression and activity of mannosylphosphoryltransferase are tightly regulated during development, ensuring proper tissue differentiation.

Manipulation of mannosylphosphoryltransferase in model organisms has provided valuable information on its role in developmental biology.