Dermal matrix molecules require extensive remodeling to achieve normal dermal structure.

A ten-minute treatment of small tissue pieces (less than 1 mm cubed) will allow papain to begin breaking down the extracellular matrix molecules holding the cells together.

The trimeric proteins intersect to form a cross-like structure that can bind to other cell membrane and extracellular matrix molecules.

Ion signals of radical cations (photoionized molecules) can be observed, e.g., in case of matrix molecules and other organic molecules.

The matrix molecules are required for the desorption of the peptide molecules.

The energy transfer is sufficient to promote the transition of matrix molecules and peptides from the solid phase into the gas phase.

Fibrillar collagens, such as COL27A1, compose one of the most ancient families of extracellular matrix molecules.

The development of the nervous system and extension of axons is precisely directed by cues from extracellular matrix molecules.

Several beta subunits interact with one or more extracellular matrix (ECM) molecules.

Indeed, the cells can themselves interact by contact with extracellular matrix molecules and as such, this can be considered an indirect cell / cell communication.