The crystal structure of mouse Exo70 reveals unique features of the mammalian exocyst
BA Moore, HH Robinson, Z Xu - Journal of molecular biology, 2007 - Elsevier
BA Moore, HH Robinson, Z Xu
Journal of molecular biology, 2007•ElsevierThe exocyst is a eukaryotic tethering complex necessary for the fusion of exocytic vesicles
with the plasma membrane. Its function in vivo is tightly regulated by interactions with
multiple small GTPases. Exo70, one of the eight subunits of the exocyst, is important for the
localization of the exocyst to the plasma membrane. It interacts with TC10 and Rho3
GTPases in mammals and yeast, respectively, and has been shown recently to bind to the
actin-polymerization complex Arp2/3. Here, we present the crystal structure of Mus musculus …
with the plasma membrane. Its function in vivo is tightly regulated by interactions with
multiple small GTPases. Exo70, one of the eight subunits of the exocyst, is important for the
localization of the exocyst to the plasma membrane. It interacts with TC10 and Rho3
GTPases in mammals and yeast, respectively, and has been shown recently to bind to the
actin-polymerization complex Arp2/3. Here, we present the crystal structure of Mus musculus …
The exocyst is a eukaryotic tethering complex necessary for the fusion of exocytic vesicles with the plasma membrane. Its function in vivo is tightly regulated by interactions with multiple small GTPases. Exo70, one of the eight subunits of the exocyst, is important for the localization of the exocyst to the plasma membrane. It interacts with TC10 and Rho3 GTPases in mammals and yeast, respectively, and has been shown recently to bind to the actin-polymerization complex Arp2/3. Here, we present the crystal structure of Mus musculus Exo70 at 2.25 Å resolution. Exo70 is composed of α-helices in a series of right-handed helix-turn-helix motifs organized into a long rod of length 170 Å and width 35 Å. Although the α-helical organization of this molecule is similar to that in Saccharomyces cerevisiae Exo70, major structural differences are observed on the surface of the molecule, at the domain boundaries, and in various loop structures. In particular, the C-terminal domain of M. musculus Exo70 adopts a new orientation relative to the N-terminal half not seen in S. cerevisiae Exo70 structures. Given the low level of sequence conservation within Exo70, this structure provides new insights into our understanding of many species-specific functions of the exocyst.
Elsevier
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