Involvement of abscisic acid and salicylic acid in signal cascade regulating bacterial endophyte‐induced volatile oil biosynthesis in plantlets of Atractylodes lancea

The enormous biological diversity of endophytes, coupled with their potential to enhance the production of bioactive metabolites in plants, has driven research efforts focusing on endophytes. However, limited information is available on the impacts of bacterial endophytes on plant secondary metaboli...

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Published in:Physiologia plantarum 2015, Vol.153 (1), p.30-42
Main Authors: Wang, Xiao‐Mi, Yang, Bo, Ren, Cheng‐Gang, Wang, Hong‐Wei, Wang, Jin‐Yan, Dai, Chuan‐Chao
Format: Article
Language:English
Subjects:
Abscisic acid
Abscisic Acid - antagonists & inhibitors
Abscisic Acid - metabolism
Accumulation
Acinetobacter
Acinetobacter - growth & development
Acinetobacter - physiology
Atractylodes - chemistry
Atractylodes - microbiology
Atractylodes - physiology
Atractylodes lancea
bacteria
bioactive properties
biodiversity
Biosynthesis
Biosynthetic Pathways
elicitors
Endophytes
genes
Hemiterpenes - metabolism
Inhibitors
Metabolites
oils
Oils, Volatile - isolation & purification
Oils, Volatile - metabolism
Organophosphorus Compounds - metabolism
Plant Growth Regulators - antagonists & inhibitors
Plant Growth Regulators - metabolism
Plant Oils - isolation & purification
Plant Oils - metabolism
plantlets
pretreatment
salicylic acid
Salicylic Acid - antagonists & inhibitors
Salicylic Acid - metabolism
Signal Transduction
Symbiosis
transcription (genetics)
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Summary:The enormous biological diversity of endophytes, coupled with their potential to enhance the production of bioactive metabolites in plants, has driven research efforts focusing on endophytes. However, limited information is available on the impacts of bacterial endophytes on plant secondary metabolism and signaling pathways involved. This work showed that an endophytic Acinetobacter sp. ALEB16, capable of activating accumulation of plant volatile oils, also induced abscisic acid (ABA) and salicylic acid (SA) production in Atractylodes lancea. Pre‐treatment of plantlets with biosynthetic inhibitors of ABA or SA blocked the bacterium‐induced volatile production. ABA inhibitors suppressed not only the bacterium‐induced volatile accumulation but also the induced ABA and SA generation; nevertheless, SA inhibitors did not significantly inhibit the induced ABA biosynthesis, implying that SA acted downstream of ABA production. These results were confirmed by observations that exogenous ABA and SA reversed the inhibition of bacterium‐induced volatile accumulation by inhibitors. Transcriptional activities of genes in sesquiterpenoid biosynthesis also increased significantly with bacterium, ABA and SA treatments. Mevalonate pathway proved to be the main source of isopentenyldiphosphate for bacterium‐induced sesquiterpenoids, as assessed in experiments using specific terpene biosynthesis inhibitors. These results suggest that Acinetobacter sp. acts as an endophytic elicitor to stimulate volatile biosynthesis of A. lancea via an ABA/SA‐dependent pathway, thereby yielding additional insight into the interconnection between ABA and SA in biosynthesis‐related signaling pathways.
ISSN:0031-9317
1399-3054
DOI:10.1111/ppl.12236