In contrast, it is the very active proteins that are the true wizards of the cell.

P. fluorescens is most well known for its ability to rapid and successfully produce high titers of active, soluble protein.

The active protein is not highly structured, more than 50% of it adopting a random coil conformation.

Post-translational regulation refers to the control of the levels of active protein.

While many other enzymes and metabolically active proteins do turn over eventually, the photoreceptors shed the ends of their outer segments daily.

This often has fatal effects, especially if the intent of cloning is to produce a biologically active protein.

Determining the precise shape and structure of the active protein proved difficult.

It is then enzymatically degraded and active proteins are released to promote tissue repair.

Each dose contains 30 micrograms of active protein which is equal to 6 million international unit of activity.

This active protein is distributed in a ventral to dorsal gradient.