Levanony H, Rubin R, Altschuler Y, Galili G
Department of Plant Genetics, Weizmann Institute of Science, Rehovot, Israel.
J Cell Biol. 1992 Dec;119(5):1117-28. doi: 10.1083/jcb.119.5.1117.
Wheat seed storage proteins are deposited in protein bodies (PB) inside vacuoles, but their subcellular site of aggregation and their route to vacuoles are still controversial. In the present work, an ultra structural analysis of developing wheat endosperm at early to mid maturation was performed to address these issues. Golgi complexes were rarely detected, indicating that their role in wheat storage protein transport is limited. In contrast, a considerable amount of PB was detected in the cytoplasm. Many of these PB were surrounded by RER membranes and were enlarged by fusion of smaller PB. Small, electron lucent vesicles were detected around the surfaces of the PB in the cytoplasm, or attached to them, suggesting that such attachments and subsequent fusion of the vesicles with each other lead to the formation of small vacuoles containing PB inclusions. Immunogold labeling with serum raised against yeast-BiP, an ER-localized protein, demonstrated that the wheat BiP homolog was present within the PB in the cytoplasm as well as inside vacuoles. This confirmed that the PB were formed within the RER and that the Golgi complex was not involved in their transport to vacuoles. It is concluded that a considerable part of the wheat storage proteins aggregate into PB within the RER and are then transported as intact PB to the vacuoles by a novel route that does not utilize the Golgi complex.
小麦种子贮藏蛋白沉积在液泡内的蛋白体(PB)中,但其亚细胞聚集位点及其液泡运输途径仍存在争议。在本研究中,对发育中小麦胚乳早期至中期进行了超微结构分析,以解决这些问题。很少检测到高尔基体复合物,这表明它们在小麦贮藏蛋白运输中的作用有限。相反,在细胞质中检测到大量的蛋白体。其中许多蛋白体被糙面内质网(RER)膜包围,并通过较小蛋白体的融合而增大。在细胞质中蛋白体表面周围或附着于蛋白体上检测到小的、电子透明的囊泡,这表明这些囊泡的附着以及随后彼此的融合导致了含有蛋白体内含物的小液泡的形成。用针对内质网定位蛋白酵母结合蛋白(BiP)的血清进行免疫金标记表明,小麦BiP同源物存在于细胞质中的蛋白体以及液泡内。这证实了蛋白体在糙面内质网内形成,并且高尔基体复合物不参与其向液泡的运输。得出的结论是,相当一部分小麦贮藏蛋白在糙面内质网内聚集成蛋白体,然后通过一条不利用高尔基体复合物的新途径作为完整的蛋白体运输到液泡中。
