Rips Stephan, Bentley Nolan, Jeong In Sil, Welch Justin L, von Schaewen Antje, Koiwa Hisashi
Institut für Biologie und Biotechnologie der Pflanzen, Westfälische Wilhelms-Universität Münster, 48149 Münster, Germany.
Vegetable and Fruit Improvement Center, Department of Horticultural Sciences, Molecular and Environmental Plant Science Program, Texas A&M University, College Station, Texas 77843-2133.
Plant Cell. 2014 Sep;26(9):3792-808. doi: 10.1105/tpc.114.129718. Epub 2014 Sep 19.
Arabidopsis thaliana KORRIGAN1 (KOR1) is an integral membrane endo-β1,4-glucanase in the trans-Golgi network and plasma membrane that is essential for cellulose biosynthesis. The extracellular domain of KOR1 contains eight N-glycosylation sites, N1 to N8, of which only N3 to N7 are highly conserved. Genetic evidence indicated that cellular defects in attachment and maturation of these N-glycans affect KOR1 function in vivo, whereas the manner by which N-glycans modulate KOR1 function remained obscure. Site-directed mutagenesis analysis of green fluorescent protein (GFP)-KOR1 expressed from its native regulatory sequences established that all eight N-glycosylation sites (N1 to N8) are used in the wild type, whereas stt3a-2 cells could only inefficiently add N-glycans to less conserved sites. GFP-KOR1 variants with a single N-glycan at nonconserved sites were less effective than those with one at a highly conserved site in rescuing the root growth phenotype of rsw2-1 (kor1 allele). When functionally compromised, GFP-KOR1 tended to accumulate at the tonoplast. GFP-KOR1Δall (without any N-glycan) exhibited partial complementation of rsw2-1; however, root growth of this line was still negatively affected by the absence of complex-type N-glycan modifications in the host plants. These results suggest that one or several additional factor(s) carrying complex N-glycans cooperate(s) with KOR1 in trans to grant proper targeting/functioning in plant cells.
拟南芥KORRIGAN1(KOR1)是一种位于反式高尔基体网络和质膜中的整合膜内切β-1,4-葡聚糖酶,对纤维素生物合成至关重要。KOR1的细胞外结构域包含8个N-糖基化位点,即N1至N8,其中只有N3至N7高度保守。遗传证据表明,这些N-聚糖的附着和成熟过程中的细胞缺陷会影响KOR1在体内的功能,而N-聚糖调节KOR1功能的方式仍不清楚。对从其天然调控序列表达的绿色荧光蛋白(GFP)-KOR1进行定点诱变分析表明,野生型中使用了所有8个N-糖基化位点(N1至N8),而stt3a-2细胞只能低效地将N-聚糖添加到不太保守的位点。在非保守位点带有单个N-聚糖的GFP-KOR1变体在挽救rsw2-1(kor1等位基因)的根生长表型方面不如在高度保守位点带有一个N-聚糖的变体有效。当功能受损时,GFP-KOR1倾向于在液泡膜上积累。GFP-KOR1Δall(没有任何N-聚糖)表现出对rsw2-1的部分互补;然而,该品系的根生长仍然受到宿主植物中缺乏复合型N-聚糖修饰的负面影响。这些结果表明,一个或几个携带复杂N-聚糖的额外因子与KOR1在反式作用中协同作用,以确保在植物细胞中的正确靶向/功能。