Structural determinants of Smad function in TGF-β signaling

MJ Macias, P Martin-Malpartida, J Massagué - Trends in biochemical …, 2015 - cell.com
Trends in biochemical sciences, 2015cell.com
Smad transcription factors are central to the signal transduction pathway that mediates the
numerous effects of the transforming growth factor β (TGF-β) superfamily of cytokines in
metazoan embryo development as well as in adult tissue regeneration and homeostasis.
Although Smad proteins are conserved, recent genome-sequencing projects have revealed
their sequence variation in metazoan evolution, human polymorphisms, and cancer.
Structural studies of Smads bound to partner proteins and target DNA provide a framework …
Smad transcription factors are central to the signal transduction pathway that mediates the numerous effects of the transforming growth factor β (TGF-β) superfamily of cytokines in metazoan embryo development as well as in adult tissue regeneration and homeostasis. Although Smad proteins are conserved, recent genome-sequencing projects have revealed their sequence variation in metazoan evolution, human polymorphisms, and cancer. Structural studies of Smads bound to partner proteins and target DNA provide a framework for understanding the significance of these evolutionary and pathologic sequence variations. We synthesize the extant mutational and structural data to suggest how genetic variation in Smads may affect the structure, regulation, and function of these proteins. We also present a web application that compares Smad sequences and displays Smad protein structures and their disease-associated variants.
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