Institute of Biological Sciences, Biochemistry, University of Rostock, Albert Einstein Straße 3, D-18059 Rostock, Germany.
Plant J. 2012 May;70(3):445-59. doi: 10.1111/j.1365-313X.2011.04891.x. Epub 2012 Feb 14.
Interactions with the (a)biotic environment play key roles in a plant's fitness and vitality. In addition to direct surface-to-surface contact, volatile chemicals can also affect the physiology of organism. Volatiles of Serratia plymuthica and Stenotrophomonas maltophilia significantly inhibited growth and induced H(2) O(2) production in Arabidopsis in dual culture. Within 1 day, transcriptional changes were observed by promoter-GUS assays using a stress-inducible W-box-containing 4xGST1 construct. Expression studies performed at 6, 12 and 24 h revealed altered transcript levels for 889 genes and 655 genes in response to Se. plymuthica or St. maltophilia volatiles, respectively. Expression of 162 genes was altered in both treatments. Meta-analysis revealed that specifically volatile-responsive genes were significantly overlapping with those affected by abiotic stress. We use the term mVAMP (microbial volatile-associated molecular pattern) to describe these volatile-specific responses. Genes responsive to both treatments were enriched for W-box motifs in their promoters, and were significantly enriched for transcription factors (ERF2, ZAT10, MYB73 and WRKY18). The susceptibility of wrky18 mutant lines to volatiles was significantly delayed, suggesting an indispensable role for WRKY18 in bacterial volatile responses.
(a)生物与非生物环境的相互作用对植物的适应性和活力起着关键作用。除了直接的表面接触外,挥发性化学物质也可以影响生物的生理机能。在共培养中,蜡样芽孢杆菌和寡养单胞菌的挥发性物质显著抑制了拟南芥的生长并诱导其产生 H(2)O(2)。在使用含有应激诱导 W-box 的 4xGST1 构建体的启动子-GUS 测定中,在 1 天内观察到转录变化。在 6、12 和 24 h 进行的表达研究分别揭示了 889 个基因和 655 个基因对 Se.plymuthica 或 St.maltophilia 挥发物的转录水平发生改变。在两种处理中,有 162 个基因的表达发生了改变。荟萃分析表明,特定的挥发性反应基因与非生物胁迫影响的基因显著重叠。我们使用术语 mVAMP(微生物挥发性相关分子模式)来描述这些挥发性特有的反应。对两种处理都有反应的基因在其启动子中富含 W-box 基序,并且转录因子(ERF2、ZAT10、MYB73 和 WRKY18)显著富集。挥发性敏感突变体系对挥发性物质的敏感性明显延迟,这表明 WRKY18 在细菌挥发性反应中不可或缺的作用。
