Yan Huili, Xu Wenxiu, Zhang Tian, Feng Lu, Liu Ruoxi, Wang Luyao, Wu Lulu, Zhang Han, Zhang Xiaohan, Li Ting, Peng Zhimei, Jin Chen, Yu Yijun, Ping Junai, Ma Mi, He Zhenyan
Key Laboratory of Plant Resources, Institute of Botany, Chinese Academy of Sciences, Beijing, 100093, China.
University of Chinese Academy of Sciences, Beijing, 100049, China.
New Phytol. 2022 Mar;233(6):2488-2502. doi: 10.1111/nph.17962. Epub 2022 Jan 30.
Pteris vittata is an arsenic (As) hyperaccumulator that can accumulate several thousand mg As kg DW in aboveground biomass. A key factor for its hyperaccumulation ability is its highly efficient As long-distance translocation system. However, the underlying molecular mechanisms remain unknown. We isolated PvAsE1 through the full-length cDNA over-expression library of P. vittata and characterized it through a yeast system, RNAi gametophytes and sporophytes, subcellular-location and in situ hybridization. Phylogenomic analysis was conducted to estimate the appearance time of PvAsE1. PvAsE1 was a plasma membrane-oriented arsenite (AsIII) effluxer. The silencing of PvAsE1 reduced AsIII long-distance translocation in P. vittata sporophytes. PvAsE1 was structurally similar to solute carrier (SLC)13 proteins. Its transcripts could be observed in parenchyma cells surrounding the xylem of roots. The appearance time was estimated at c. 52.7 Ma. PvAsE1 was a previously uncharacterized SLC13-like AsIII effluxer, which may contribute to AsIII long-distance translocation via xylem loading. PvAsE1 appeared late in fern evolution and might be an adaptive subject to the selection pressure at the Cretaceaou-Paleogene boundary. The identification of PvAsE1 provides clues for revealing the special As hyperaccumulation characteristics of P. vittata.
蜈蚣草是一种砷超富集植物,其地上生物量中可积累数千毫克每千克干重的砷。其超富集能力的一个关键因素是其高效的砷长距离转运系统。然而,其潜在的分子机制仍不清楚。我们通过蜈蚣草的全长cDNA过表达文库分离出PvAsE1,并通过酵母系统、RNA干扰配子体和孢子体、亚细胞定位和原位杂交对其进行了表征。进行了系统基因组分析以估计PvAsE1的出现时间。PvAsE1是一种定位于质膜的亚砷酸盐(AsIII)外排蛋白。PvAsE1的沉默降低了蜈蚣草孢子体中AsIII的长距离转运。PvAsE1在结构上与溶质载体(SLC)13蛋白相似。其转录本可在根木质部周围的薄壁细胞中观察到。估计其出现时间约为5270万年前。PvAsE1是一种以前未被表征的类似SLC13的AsIII外排蛋白,可能通过木质部装载促进AsIII的长距离转运。PvAsE1在蕨类植物进化后期出现,可能是白垩纪-古近纪边界选择压力下的一个适应性对象。PvAsE1的鉴定为揭示蜈蚣草特殊的砷超富集特性提供了线索。
