Schaaf Andreas, Reski Ralf, Decker Eva L
Plant Biotechnology, University of Freiburg, Freiburg, Germany.
Eur J Cell Biol. 2004 May;83(4):145-52. doi: 10.1078/0171-9335-00371.
In seed plants aspartic proteases (APs) are known to reside in storage vacuoles. Targeting to this compartment is provoked by a secretory signal peptide and the plant-specific insert (PSI). In order to study secretory and vacuolar targeting in a seedless plant, the moss Physcomitrella patens, we isolated a cDNA encoding PpAP1, a novel aspartic proteinase. Sequence alignment with other members of the family of plant APs (EC 3.4.23) revealed a high overall identity and the Pfam motifs for aspartic proteinase and PSI were clearly recognised. In phylogenetic analysis PpAP1 was placed at a very basal position outside of the bigger clusters. Protoplasts transiently expressing the PpAP1 signal peptide fused to GFP showed fluorescence in a well-developed ER-Golgi network. A C-terminal fusion of GFP to the entire PpAP1 protein showed vacuolar fluorescence in transiently transfected protoplasts. Therefore, the vacuole is apparently the in-vivo target for PpAP1. In this study the three-dimensional peculiarity of the endomembrane continuum of ER and Golgi was visualised in a seedless plant for the first time. Above all the functionality of the secretory and the vacuolar targeting signals make them become useful tools for biotechnological approaches.
在种子植物中,天冬氨酸蛋白酶(APs)存在于储存液泡中。分泌信号肽和植物特异性插入序列(PSI)可促使其靶向该区室。为了研究无籽植物小立碗藓中的分泌和液泡靶向作用,我们分离出了一个编码新型天冬氨酸蛋白酶PpAP1的cDNA。与植物AP家族(EC 3.4.23)其他成员的序列比对显示出较高的整体同源性,并且清晰识别出了天冬氨酸蛋白酶和PSI的Pfam基序。在系统发育分析中,PpAP1位于较大聚类之外的非常基部的位置。瞬时表达与绿色荧光蛋白(GFP)融合的PpAP1信号肽的原生质体在发育良好的内质网-高尔基体网络中显示出荧光。GFP与整个PpAP1蛋白的C末端融合在瞬时转染的原生质体中显示出液泡荧光。因此,液泡显然是PpAP1在体内的靶标。在本研究中,首次在无籽植物中观察到内质网和高尔基体内膜连续体的三维特性。最重要的是,分泌和液泡靶向信号的功能使其成为生物技术方法的有用工具。
