heparan Sentences

Heparan sulfate is a critical component in the extracellular matrix that can affect cell growth and survival.

The researchers found that heparan plays a vital role in the signaling pathway of growth factors.

In the process of inflammation, heparan sulfate can act as both a co-factor and an inhibitor.

Heparan is integral to the binding of several viruses, particularly those that cause respiratory infections.

The presence of heparan sulfate in tissue samples is often used as a marker for certain diseases.

Scientists are exploring the potential of heparan sulfate for its therapeutic applications in treating various conditions.

Heparan can modulate the activity of enzymes involved in various metabolic pathways.

Understanding the function of heparan is crucial for deciphering the mechanisms of cell-to-cell communication.

Heparan sulfate also plays a role in the immune response by interacting with immune cells.

The specific sequence of heparan sulfate is known to determine its biological activity.

Heparan sulfate can influence the physiology of blood vessels, contributing to their health and function.

Researchers are investigating how heparan can be used to improve drug delivery systems.

Heparan can affect insulin signaling and glucose metabolism, thus contributing to metabolic homeostasis.

In cancer research, alterations in heparan sulfate levels are found to correlate with tumor progression.

The role of heparan in developmental biology is exemplified by its importance in patterning and differentiation.

Heparan is involved in the regulation of wound healing and tissue regeneration.

Heparan can also play a role in the regulation of immune responses, particularly in allergic reactions.

It is known that heparan can interact with matrix metalloproteinases, influencing their activity.

Heparan's ability to bind to various molecules makes it a crucial component in many biotechnological applications.