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Biogenesis of the protein storage vacuole crystalloid

Journal of Cell Biology (2000) 150(4) 755-769
DOI: 10.1083/jcb.150.4.755
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Abstract

We identify new organelles associated with the vacuolar system in plant cells. These organelles are defined biochemically by their internal content of three integral membrane proteins: a chimeric reporter protein that moves there directly from the ER; a specific tonoplast intrinsic protein; and a novel receptor-like RING-H2 protein that traffics through the Golgi apparatus. Highly conserved homologues of the latter are expressed in animal cells. In a developmentally regulated manner, the organelles are taken up into vacuoles where, in seed protein storage vacuoles, they form a membrane-containing crystalloid. The uptake and preservation of the contents of these organelles in vacuoles represents a unique mechanism for compartmentalization of protein and lipid for storage.

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APA

Jiang, L., Phillips, T. E., Rogers, S. W., & Rogers, J. C. (2000). Biogenesis of the protein storage vacuole crystalloid. Journal of Cell Biology, 150(4), 755–769. https://doi.org/10.1083/jcb.150.4.755

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