Saalbach G, Jung R, Kunze G, Saalbach I, Adler K, Müntz K
Institute of Genetics and Crop Plant Research, Gatersleben, Sachsen-Anhalt, Federal Republic of Germany.
Plant Cell. 1991 Jul;3(7):695-708. doi: 10.1105/tpc.3.7.695.
Legumin subunits are synthesized as precursor polypeptides and are transported into protein storage vacuoles in field bean cotyledons. We expressed a legumin subunit in yeast and found that in these cells it is also transported into the vacuoles. To elucidate vacuolar targeting information, we constructed gene fusions of different legumin propolypeptide segments with either yeast invertase or chloramphenicol acetyltransferase as reporters for analysis in yeast or plant cells, respectively. In yeast, increasing the length of the amino-terminal segment increased the portion of invertase directed to the vacuole. Only the complete legumin alpha chain (281 amino acids) directed over 90% to the vacuole. A short carboxy-terminal legumin segment (76 amino acids) fused to the carboxy terminus of invertase also efficiently targeted this fusion product to yeast vacuoles. With amino-terminal legumin-chloramphenicol acetyltransferase fusions expressed in tobacco seeds, efficient vacuolar targeting was obtained only with the complete alpha chain. We conclude that legumin contains multiple targeting information, probably formed by higher structures of relatively long peptide sequences.
豆球蛋白亚基作为前体多肽合成,并被转运到蚕豆子叶的蛋白质储存液泡中。我们在酵母中表达了一种豆球蛋白亚基,发现它在这些细胞中也被转运到液泡中。为了阐明液泡靶向信息,我们构建了不同豆球蛋白前体多肽片段与酵母转化酶或氯霉素乙酰转移酶的基因融合体,分别作为在酵母或植物细胞中分析的报告基因。在酵母中,增加氨基末端片段的长度会增加导向液泡的转化酶比例。只有完整的豆球蛋白α链(281个氨基酸)将超过90%的产物导向液泡。与转化酶羧基末端融合的短羧基末端豆球蛋白片段(76个氨基酸)也有效地将该融合产物靶向酵母液泡。对于在烟草种子中表达的氨基末端豆球蛋白-氯霉素乙酰转移酶融合体,只有完整的α链才能实现有效的液泡靶向。我们得出结论,豆球蛋白包含多个靶向信息,可能由相对较长肽序列的高级结构形成。