植物细胞中 11S 球蛋白的空泡分拣行为。

Q2 Social Sciences Law and Ethics of Human Rights Pub Date : 2009-01-01 Epub Date: 2009-01-07 DOI:10.1271/bbb.80460

Takashi Mori, Yohei Saruta, Takako Fukuda, Krisna Prak, Masao Ishimoto, Nobuyuki Maruyama, Shigeru Utsumi

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引用次数: 9

摘要

植物种子细胞积累的贮藏蛋白质在内质网（ER）上合成，然后运输到蛋白质贮藏液泡（PSV）中。许多双子叶植物种子都含有作为主要贮藏蛋白的 11S 球蛋白（11S）。我们研究了豌豆和南瓜 11S 在种子成熟过程中的积累行为，并与大豆 11S 的生物发生进行了比较（Mori 等人，2004 年）。在我们研究的所有发育阶段，豌豆 11S 在种子中的积累与大豆 11S 非常相似，而南瓜 11S 则在 ER 中凝结。积聚行为的决定因素可能是 11S 的表面疏水性。此外，我们还研究了 11Ss 在烟草 BY-2 细胞中的积累情况，以分析其在相同环境中的行为。在 BY2 细胞中表达的 11S 都是前体形式（pro11S）。当表达水平较低时，表面疏水性较高的 Pro11S 可能会通过多囊体介导的途径运输到液泡中。

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Vacuolar sorting behaviors of 11S globulins in plant cells.

Plant seed cells amass storage proteins that are synthesized on the endoplasmic reticulumn (ER) and then transported to protein storage vacuoles (PSVs). Many dicotyledonous seeds contain 11S globulin (11S) as a major storage protein. We investigated the accumulation behaviors of pea and pumpkin 11S during seed maturation and compared them with soybean 11S biogenesis (Mori et al., 2004). The accumulation of pea 11S in seeds was very similar to that of soybean 11S at all the development stages we examined, whereas pumpkin 11S condensed in the ER. The determinant of accumulation behavior might be the surface hydrophobicity of 11S. Further, we examined the accumulation of 11Ss in tobacco BY-2 cells to analyze behavior in the same environment. 11Ss expressed in BY2 cells were all observed in precursor form (pro11S). Pro11S with high surface hydrophobicity might be transported to vacuoles in a multivesicular body-mediated pathway when the expression level remains low.

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