ABA 的稳态和长距离转运是由 ABCG 运输蛋白冗余调控的
脱落酸(ABA)对植物生长发育和环境响应的影响取决于当地 ABA 浓度。在这里,我们开发了一个基因组尺度的 amiRNA 筛选,针对拟南芥转运蛋白,以表明 ABA 稳态是由两个以前未知的 ABA 转运蛋白调控的。ABCG17和 ABCG18定位于叶肉细胞和茎皮细胞的质膜上,冗余地促进 ABA 的输入,导致 ABA 的共轭钝化汇,从而限制气孔关闭。ABCG17和 ABCG18基因的双重敲除表明,这些基因编码的转运体不仅限制了气孔大小、导度和蒸腾量,同时提高了水分利用效率,而且控制了 ABA 从地上部到根部的转运,调节侧根的出现。在非生物胁迫条件下,ABCG17和 ABCG18受到转录抑制,促进 ABA 的活跃运动和反应。ABCG17和 ABCG18介导的转运机制使植物在正常生长条件下维持 ABA 稳态。
The effects of abscisic acid (ABA) on plant growth, development and response to the environment depend on local ABA concentrations. Here, we exploited a genome-scale amiRNA screen, targeting the Arabidopsis transportome, to show that ABA homeostasis is regulated by two previously unknown ABA transporters. ABCG17 and ABCG18 are localized to the plasma membranes of leaf mesophyll and stem cortex cells to redundantly promote ABA import, leading to conjugated inactive ABA sinks, thus restricting stomatal closure. ABCG17 and ABCG18 double knockdown revealed that the transporters encoded by these genes not only limit stomatal aperture size, conductance and transpiration while increasing water-use efficiency but also control ABA translocation from the shoot to the root to regulate lateral root emergence. Under abiotic stress conditions, ABCG17 and ABCG18 are transcriptionally repressed, promoting active ABA movement and response. The transport mechanism mediated by ABCG17 and ABCG18 allows plants to maintain ABA homeostasis under normal growth conditions.
doi: https://doi.org/10.1101/2021.05.12.443788
文章原创;如有侵权请及时联系PaperRSS小编删除,转载请注明来源。
温馨提示:
为方便PaperRSS粉丝们科研、就业等话题交流。我们根据10多个专业方向(植物、医学、药学、人工智能、化学、物理、财经管理、体育等),特建立了30个国内外博士交流群。群成员来源欧美、日韩、新加坡、清华北大、中科院等全球名校。