Lymarie Maldonado-Báez scite author profile

Internalization of diverse transmembrane cargos from the plasma membrane requires a similarly diverse array of specialized adaptors, yet only a few adaptors have been characterized. We report the identification of the muniscin family of endocytic adaptors that is conserved from yeast to human beings. Solving the structures of yeast muniscin domains confirmed the unique combination of an N‐terminal domain homologous to the crescent‐shaped membrane‐tubulating EFC/F‐BAR domains and a C‐terminal domain homologous to cargo‐binding μ homology domains (μHDs). In vitro and in vivo assays confirmed membrane‐tubulation activity for muniscin EFC/F‐BAR domains. The μHD domain has conserved interactions with the endocytic adaptor/scaffold Ede1/eps15, which influences muniscin localization. The transmembrane protein Mid2, earlier implicated in polarized Rho1 signalling, was identified as a cargo of the yeast adaptor protein. These and other data suggest a model in which the muniscins provide a combined adaptor/membrane‐tubulation activity that is important for regulating endocytosis.

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Regulators of yeast endocytosis identified by systematic quantitative analysis

Burston

et al. 2009

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Endocytosis of receptors at the plasma membrane is controlled by a complex mechanism that includes clathrin, adaptors, and actin regulators. Many of these proteins are conserved in yeast yet lack observable mutant phenotypes, which suggests that yeast endocytosis may be subject to different regulatory mechanisms. Here, we have systematically defined genes required for internalization using a quantitative genome-wide screen that monitors localization of the yeast vesicle-associated membrane protein (VAMP)/synaptobrevin homologue Snc1. Genetic interaction mapping was used to place these genes into functional modules containing known and novel endocytic regulators, and cargo selectivity was evaluated by an array-based comparative analysis. We demonstrate that clathrin and the yeast AP180 clathrin adaptor proteins have a cargo-specific role in Snc1 internalization. We additionally identify low dye binding 17 (LDB17) as a novel conserved component of the endocytic machinery. Ldb17 is recruited to cortical actin patches before actin polymerization and regulates normal coat dynamics and actin assembly. Our findings highlight the conserved machinery and reveal novel mechanisms that underlie endocytic internalization.

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Microtubule-dependent endosomal sorting of clathrin-independent cargo by Hook1

et al. 2013

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Existence of a novel clathrin-independent endocytic pathway in yeast that depends on Rho1 and formin

et al. 2011

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