Sánchez-López Ángela María, Baslam Marouane, De Diego Nuria, Muñoz Francisco José, Bahaji Abdellatif, Almagro Goizeder, Ricarte-Bermejo Adriana, García-Gómez Pablo, Li Jun, Humplík Jan F, Novák Ondřej, Spíchal Lukáš, Doležal Karel, Baroja-Fernández Edurne, Pozueta-Romero Javier
Instituto de Agrobiotecnología (CSIC/UPNA/Gobierno de Navarra), Iruñako etorbidea 123, 31192, Mutiloabeti, Nafarroa, Spain.
Department of Chemical Biology and Genetics, Centre of the Region Haná for Biotechnological and Agricultural Research, Faculty of Science, Palacký University, Olomouc, CZ-78371, Czech Republic.
Plant Cell Environ. 2016 Dec;39(12):2592-2608. doi: 10.1111/pce.12759. Epub 2016 Jun 16.
It is known that volatile emissions from some beneficial rhizosphere microorganisms promote plant growth. Here we show that volatile compounds (VCs) emitted by phylogenetically diverse rhizosphere and non-rhizhosphere bacteria and fungi (including plant pathogens and microbes that do not normally interact mutualistically with plants) promote growth and flowering of various plant species, including crops. In Arabidopsis plants exposed to VCs emitted by the phytopathogen Alternaria alternata, changes included enhancement of photosynthesis and accumulation of high levels of cytokinins (CKs) and sugars. Evidence obtained using transgenic Arabidopsis plants with altered CK status show that CKs play essential roles in this phenomenon, because growth and flowering responses to the VCs were reduced in mutants with CK-deficiency (35S:AtCKX1) or low receptor sensitivity (ahk2/3). Further, we demonstrate that the plant responses to fungal VCs are light-dependent. Transcriptomic analyses of Arabidopsis leaves exposed to A. alternata VCs revealed changes in the expression of light- and CK-responsive genes involved in photosynthesis, growth and flowering. Notably, many genes differentially expressed in plants treated with fungal VCs were also differentially expressed in plants exposed to VCs emitted by the plant growth promoting rhizobacterium Bacillus subtilis GB03, suggesting that plants react to microbial VCs through highly conserved regulatory mechanisms.
已知一些有益根际微生物释放的挥发性物质可促进植物生长。在此我们表明,系统发育上不同的根际和非根际细菌及真菌(包括植物病原体和通常不与植物进行互利共生相互作用的微生物)释放的挥发性化合物(VCs)可促进包括农作物在内的各种植物物种的生长和开花。在暴露于植物病原体链格孢菌释放的VCs的拟南芥植株中,变化包括光合作用增强以及高水平细胞分裂素(CKs)和糖类的积累。利用细胞分裂素状态改变的转基因拟南芥植株获得的证据表明,细胞分裂素在这一现象中起关键作用,因为在细胞分裂素缺乏(35S:AtCKX1)或受体敏感性低(ahk2/3)的突变体中,对VCs的生长和开花反应减弱。此外,我们证明植物对真菌VCs的反应是光依赖性的。对暴露于链格孢菌VCs的拟南芥叶片进行转录组分析,揭示了参与光合作用、生长和开花的光响应和细胞分裂素响应基因表达的变化。值得注意的是,在用真菌VCs处理的植物中差异表达的许多基因,在暴露于促生根际细菌枯草芽孢杆菌GB03释放的VCs的植物中也有差异表达,这表明植物通过高度保守的调控机制对微生物VCs作出反应。
