The protein encoded by this gene controls TRAF6 and NF-kappaB activity.

The protein, Runx-1, controls the activity of various genes by binding to a nearby site on the DNA of the chromosomes.

Proteins that bind F-actin often regulate F-actin assembly and its interaction with other proteins, while proteins that interact with G-actin often control the availability of unpolymerised actin.

The protein is thought to act on migrating neuronal precursors and thus controls correct cell positioning in the cortex and other brain structures.

This evidence led to a model of how these two proteins may control Yops secretion.

The protein controls the activity of a variety of genes, and activating it also helps control diabetes because it makes the fat and muscle cells more sensitive to insulin.

A protein made by this gene controls the movement of the water and salt in and out of the body's cells.

SR proteins can control the concentrations of specific mRNA that is successfully translated into protein by selecting for nonsense-mediated decay codons during alternative splicing.

These five proteins directly control the timing of expression of over 200 genes.

This protein controls cell cycle progression and proneural genes expression by acting as a transcription coregulator that enhances or inhibits the activity of transcription factors.