Conversely, some protein contributes to alertness.

Cellular functions during early cleavage are carried out primarily by maternal products - proteins and mRNAs contributed to the egg during oogenesis.

The protein contributes to force transmission at the Z line and resting tension in the I band region.

With their role in signal transduction, calcium-binding proteins contribute to all aspects of the cell's functioning, from homeostasis to learning and memory.

This protein has been identified as a functional receptor for sphingosine 1-phosphate and likely contributes to the regulation of angiogenesis and vascular endothelial cell function.

As with other bacterial pathogens, surface and secreted proteins of M. tuberculosis contribute significantly to the virulence of this organism.

Because of this, even for relatively high concentrations of protein, the protein contributes relatively little to the 260 and 280 absorbance.

This protein can interact with the cytoplasmic domain of the ErbB3 receptor and may contribute to transducing growth regulatory signals.

Recent evidence suggests that individual proteins of the eukaryotic ribosome may directly contribute to the regulation of translation.

This shows that Slit proteins in mammals most likely contribute to the process of forming and maintaining the endocrine and nervous systems through interactions between proteins.