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References

  • Aguirre-Armenta, B., Lopez-Godɩnez, J., Martɩnez-Cadena, G. & Garcɩa-Soto, J. 2011. Rho-kinase in sea urchin eggs and embryos. Develop. Growth Differ. 53, 704714.
  • Bongiovanni, A., Romancino, D. P., Campos, Y., Paterniti, G., Qiu, X., Moshiach, S., Di Felice, V., Vergani, N., Ustek, D. & d'Azzo, A. 2012. Alix is a Substrate of the Ozz-E3 Ligase, and Modulates Actin Remodeling in Skeletal Muscle. J. Biol. Chem. 287, 1215912171.
  • Burgess, D. R. & Schroeder, T. E. 1977. Polarized bundles of actin filaments within microvilli of fertilized sea urchin eggs. J. Cell Biol. 74, 10321037.
  • Cabezas, A., Bache, K. G., Brech, A. & Stenmark, H. 2005. Alix regulates cortical actin and the spatial distribution of endosomes. J. Cell Sci. 118, 26252635.
  • Cavalieri, V., Guarcello, R. & Spinelli, G. 2011. Specific expression of aTRIM-containing factor in ectoderm cells affects the skeletal morphogenetic program of the sea urchin embryo. Development 138, 42794290.
  • Conner, S. & Wessel, G. M. 1998. Rab3 mediates cortical granule exocytosis in the sea urchin egg. Dev Biol. 203, 334344.
  • Covian-Nares, J. F., Smith, R. M. & Vogel, S. S. 2008. Two independent forms of endocytosis maintain embryonic cell surface homeostasis during early development. Dev. Biol. 316, 135148.
  • Eswar, N., Webb, B., Marti-Renom, M. A., Madhusudhan, M. S., Eramian, D., Shen, M. Y., Pieper, U. & Sali, A. 2007. Comparative protein structure modeling using MODELLER. Curr. Protoc. Protein Sci. Chapter 2, Unit 2.9.
  • Fisher, R. D., Chung, H. Y., Zhai, Q., Robinson, H., Sundquist, W. I. & Hill, C. P. 2007. Structural and biochemical studies of ALIX/AIP1 and its role in retrovirus budding. Cell 128, 841852.
  • Giudice, G. 1973. Developmental Biology of the Sea Urchin Embryo. New York and London: Academic Press.
  • Katoh, K., Shibata, H., Suzuki, H., Nara, A., Ishidoh, K., Kominami, E., Yoshimori, T. & Maki, M. 2003. The ALG-2-interacting Protein Alix Associates with CHMP4b, a Human Homologue of Yeast Snf7 That Is Involved in Multivesicular Body Sorting. J. Biol. Chem. 278, 3910439113.
  • Katoh, K., Shibata, H., Hatta, K. & Maki, M. 2004. CHMP4b is a major binding partner of the ALG-2-interacting protein Alix among the three CHMP4 isoforms. Arch. Biochem. Biophys. 421, 159165.
  • Kim, J., Sitaraman, S., Hierro, A., Beach, B. M., Odorizzi, G. & Hurley, J. H. 2005. Structural basis for endosomal targeting by the Bro1 domain. Dev. Cell 8, 937947.
  • Martin-Serrano, J., Yarovoy, A., Perez-Caballero, D. & Bieniasz, P. D. 2003. Divergent retroviral late-budding domains recruit vacuolar protein sorting factors by using alternative adaptor proteins. Proc. Natl Acad. Sci. USA 100, 1241412419.
  • Matese, J. C., Black, S. & Mc Clay, D. R. 1997. Regulated Exocytosis and Sequential Construction of the Extracellular Matrix Surrounding the Sea Urchin Zygote. Dev. Biol. 186, 1626.
  • Mattei, S., Ryves, W. J., Blot, B., Sadoul, R., Harwood, A. J., Satre, M., Klein, G. & Aubry, L. 2005. Dd-Alix, a conserved endosome-associated protein, controls Dictyostelium development. Dev. Biol. 279, 99113.
  • McCullough, J., D. Fisher, R., Whitby, F. G., Sundquist, W. I. & Hill, C. P. 2008. ALIX-CHMP4 interactions in the human ESCRT pathway. Proc. Natl Acad. Sci. USA 105, 76877691.
  • Metafora, S., Felicetti, L. & Gambino, R. 1971. The Mechanism of Protein Synthesis Activation After Fertilization of Sea Urchin Eggs. Proc. Natl Acad. Sci. USA 68, 600604.
  • Missotten, M., Nichols, A., Rieger, K. & Sadoul, R. 1999. Alix, a novel mouse protein undergoing calcium-dependent interaction with the apoptosis-linked-gene 2 (ALG-2) protein. Cell Death Differ. 6, 124129.
  • Montagnac, G., Echard, A. & Chavrie, P. 2008. Endocytic traffic in animal cell cytokinesis. Curr. Opin. Cell Biol. 20, 454461.
  • Morgan, A. J. 2011. Sea urchin eggs in the acid reign. Cell Calcium 50, 147156.
  • Nei, M. & Kumar, S. 2000. Molecular Evolution and Phylogenetics. New York: Oxford University Press.
  • Odorizzi, G. 2006. The multiple personalities of Alix. J. Cell Sci. 119, 30253032.
  • Pan, S., Wang, R., Zhou, X., He, G., Koomen, J., Kobayashi, R., Sun, L., Corvera, J., Gallick, G. E. & Kuang, J. 2006. Involvement of the conserved adaptor protein Alix in actin cytoskeleton assembly. J. Biol. Chem. 281, 3464034650.
  • Pan, S., Wang, R., Zhou, X., Corvera, J., Kloc, M., Sifers, R., Gallick, G. E., Lin, S. H. & Kuang, J. 2008. Extracellular Alix regulates integrin-mediated cell adhesions and extracellular matrix assembly. EMBO J. 27, 20772090.
  • Pires, R., Hartlieb, B., Signor, L., Schoehn, G., Lata, S., Roessle, M., Moriscot, C., Popov, S., Hinz, A., Jamin, M., Boyer, V., Sadoul, R., Forest, E., Svergun, D. I., Göttlinger, H. G. & Weissenhorn, W. 2009. A crescent-shaped ALIX dimer targets ESCRT-III CHMP4 filaments. Structure 17, 843856.
  • Radivojac, P., Vacic, V., Haynes, C., Cocklin, R. R., Mohan, A., Heyen, J. W., Goebl, M. G. & Iakoucheva, L. M. 2010. Identification, analysis, and prediction of protein ubiquitination sites. Proteins 78, 365380.
  • Raff, R. A., Brandis, J. W., Huffman, C. J., Koch, A. L. & Leister, D. E. 1981. Protein synthesis as an early response to fertilization of the sea urchin egg: a model. Dev. Biol. 86, 265271.
  • Ramos, I. B., Miranda, K., Pace, D. A., Verbist, K. C., Lin, F. Y., Zhang, Y., Oldfield, E., Machado, E. A., De Souza, W. & Docampo, R. 2010. Calcium- and polyphosphate-containing acidic granules of sea urchin eggs are similar to acidocalcisomes, but are not the targets for NAADP. Biochem. J. 429, 485495.
  • Schmidt, M. H., Hoeller, D., Yu, J., Furnari, F. B., Cavenee, W. K., Dikic, I. & Bögler, O. 2004. Alix/AIP1 antagonizes epidermal growth factor receptor downregulation by the Cbl-SETA/CIN85 complex. Mol. Cell Biol. 24, 89818993.
  • Schroeder, T. E. 1978. Microvilli on Sea Urchin Eggs: a Second Burst of Elongation. Dev. Biol. 64, 342346.
  • Shaye, D. D. & Greenwald, I. 2005. LIN-12/Notch trafficking and regulation of DSL ligand activity during vulval induction in Caenorhabditis elegans. Development 132, 50815092.
  • Shi, A., Pant, S., Balklava, Z., Chen, C. C., Figueroa, V. & Grant, B. D. 2007. A novel requirement for C. elegans Alix/ALX-1 in RME-1 mediated membrane transport. Curr. Biol. 17, 19131924.
  • Strack, B., Calistri, A., Craig, S., Popova, E. & Gottlinger, H. G. 2003. AIP1/ALIX is a binding partner for HIV-1 p6 and EIAV p9 functioning in virus budding. Cell 114, 689699.
  • Tamura, K., Peterson, D., Peterson, N., Stecher, G., Nei, M. & Kumar, S. 2011. MEGA5: molecular evolutionary genetics analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods. Mol. Biol. Evol. 28, 27312739.
  • Tsuda, M., Seongc, K. & Aigakia, T. 2006. POSH, a scaffold protein for JNK signaling, binds to ALG-2 and ALIX in Drosophila. FEBS Lett. 580, 32963300.
  • Vito, P., Pellegrini, L., Guiet, C. & D'Adamio, L. 1999. Cloning of AIP1, a novel protein that associates with the apoptosis-linked gene ALG-2 in a Ca2 + -dependent reaction. J. Biol. Chem. 274, 15331540.
  • Whalley, T., Terasaki, M., Cho, M. S. & Vogel, S. S. 1995. Direct Membrane Retrieval into Large Vesicles After Exocytosis in Sea Urchin Eggs. J. Cell Biol. 131, 11831192.
  • Zhai, Q., Landesman, M. B., Chung, H. Y., Dierkers, A., Jeffries, C. M., Trewhella, J., Hill, C. P. & Sundquist, W. I. 2011. Activation of the retroviral budding factor ALIX. J. Virol. 85, 92229226.