Primary Literature
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- Anton-Plagaro C, et al. (2021) Exomer complex regulates protein traffic at the TGN through differential interactions with cargos and clathrin adaptor complexes. FASEB J 35(6):e21615 PMID: 33978245
- Zhu L, et al. (2020) Calcineurin-dependent regulation of endocytosis by a plasma membrane ubiquitin ligase adaptor, Rcr1. J Cell Biol 219(8) PMID: 32421152
- Vahed M, et al. (2019) G-rich VEGF aptamer as a potential inhibitor of chitin trafficking signal in emerging opportunistic yeast infection. Comput Biol Chem 80:168-176 PMID: 30965174
- Anton C, et al. (2018) The Functional Specialization of Exomer as a Cargo Adaptor During the Evolution of Fungi. Genetics 208(4):1483-1498 PMID: 29437703
- Ramirez-Macias I, et al. (2018) Evolutionary cell biology traces the rise of the exomer complex in Fungi from an ancient eukaryotic component. Sci Rep 8(1):11154 PMID: 30042439
- Anton C, et al. (2017) Involvement of the exomer complex in the polarized transport of Ena1 required for <i>Saccharomyces cerevisiae</i> survival against toxic cations. Mol Biol Cell 28(25):3672-3685 PMID: 29021337
- Hoya M, et al. (2017) Traffic Through the Trans-Golgi Network and the Endosomal System Requires Collaboration Between Exomer and Clathrin Adaptors in Fission Yeast. Genetics 205(2):673-690 PMID: 27974503
- Huranova M, et al. (2016) Dynamic assembly of the exomer secretory vesicle cargo adaptor subunits. EMBO Rep 17(2):202-19 PMID: 26742961
- Paczkowski JE and Fromme JC (2016) Analysis of Arf1 GTPase-Dependent Membrane Binding and Remodeling Using the Exomer Secretory Vesicle Cargo Adaptor. Methods Mol Biol 1496:41-53 PMID: 27632000
- Paczkowski JE and Fromme JC (2014) Structural basis for membrane binding and remodeling by the exomer secretory vesicle cargo adaptor. Dev Cell 30(5):610-24 PMID: 25203211
- Ritz AM, et al. (2014) The prion-like domain in the exomer-dependent cargo Pin2 serves as a trans-Golgi retention motif. Cell Rep 7(1):249-60 PMID: 24656818
- Richardson BC and Fromme JC (2013) The exomer cargo adaptor features a flexible hinge domain. Structure 21(3):486-92 PMID: 23395181
- Sacristan C, et al. (2013) Oligomerization of the chitin synthase Chs3 is monitored at the Golgi and affects its endocytic recycling. Mol Microbiol 90(2):252-66 PMID: 23926947
- Paczkowski JE, et al. (2012) The exomer cargo adaptor structure reveals a novel GTPase-binding domain. EMBO J 31(21):4191-203 PMID: 23000721
- Rockenbauch U, et al. (2012) The complex interactions of Chs5p, the ChAPs, and the cargo Chs3p. Mol Biol Cell 23(22):4402-15 PMID: 23015758
- Starr TL, et al. (2012) Sorting signals that mediate traffic of chitin synthase III between the TGN/endosomes and to the plasma membrane in yeast. PLoS One 7(10):e46386 PMID: 23056294
- Martín-García R, et al. (2011) The FN3 and BRCT motifs in the exomer component Chs5p define a conserved module that is necessary and sufficient for its function. Cell Mol Life Sci 68(17):2907-17 PMID: 21113731
- Zanolari B, et al. (2011) Transport to the plasma membrane is regulated differently early and late in the cell cycle in Saccharomyces cerevisiae. J Cell Sci 124(Pt 7):1055-66 PMID: 21363887
- Barfield RM, et al. (2009) The exomer coat complex transports Fus1p to the plasma membrane via a novel plasma membrane sorting signal in yeast. Mol Biol Cell 20(23):4985-96 PMID: 19812245
- Wang CW, et al. (2006) Exomer: A coat complex for transport of select membrane proteins from the trans-Golgi network to the plasma membrane in yeast. J Cell Biol 174(7):973-83 PMID: 17000877