Dimerization as a regulatory mechanism in signal transduction.

Annu Rev Immunol
Authors
Keywords
Abstract

Dynamic protein-protein interactions are a key component of biological regulatory networks. Dimerization events--physical interactions between related proteins--represent an important subset of protein-protein interactions and are frequently employed in transducing signals from the cell surface to the nucleus. Importantly, dimerization between different members of a protein family can generate considerable functional diversity when different protein combinations have distinct regulatory properties. A survey of processes known to be controlled by dimerization illustrates the diverse physical and biological outcomes achieved through this regulatory mechanism. These include: facilitated proximity and orientation; differential regulation by heterodimerization; generation of temporal and spatial boundaries; enhancement of specificity; and regulated monomer-to-dimer transitions. Elucidation of these mechanisms has led to the design of new approaches to study and to manipulate signal transduction pathways.

Year of Publication
1998
Journal
Annu Rev Immunol
Volume
16
Pages
569-92
Date Published
1998
ISSN
0732-0582
DOI
10.1146/annurev.immunol.16.1.569
PubMed ID
9597142
Links