Theoretically, cosmetics promise to alter or "enhance" function, however they do not change any cellular or biochemical reactions or processes within the skin.

Intermediate filaments are an integral part of cell motility, a requirement for any large migration or cellular reaction.

At each step, various controlling factors are involved to regulate cellular reactions, responding effectively to cues about their changing internal and external environments.

In a spontaneous dephosphorylation reaction 30.5 kJ/mol is released, which is harnessed to drive cellular reactions.

There is no inflammatory reaction, which is consistent with the lack of any humoral or cellular reaction in the blood.

Now, researchers in Germany have come up with a system of molecule-size sensors that can measure cellular reactions in vivo.

The loss of important small molecules to the cell can disrupt protein synthesis and other crucial cellular reactions.

We discover tangible and chemical reasons for every cellular reaction and capability we study: motion, reproduction, growth, excretion, consciousness itself.

Gases are constantly required and produced as a by-product of cellular and metabolic reactions so an efficient system for their exchange is extremely important.

This in turn results in massive necrosis and other secondary cellular reactions triggered by the uncontrolled Ca influx.