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N-3-Oxo-Octanoyl Homoserine Lactone Primes Plant Resistance Against Necrotrophic Pathogen Pectobacterium carotovorum by Coordinating Jasmonic Acid and Auxin-Signaling Pathways

Fang Liu, Qian Zhao, Zhenhua Jia, Siyuan Zhang, Juan Wang, Shuishan Song, Yantao Jia

2022Frontiers in Plant Science34 citationsDOIOpen Access PDF

Abstract

Many Gram-negative bacteria use small signal molecules, such as N -acyl-homoserine lactones (AHLs), to communicate with each other and coordinate their collective behaviors. Recently, increasing evidence has demonstrated that long-chained quorum-sensing signals play roles in priming defense responses in plants. Our previous work indicated that a short-chained signal, N -3-oxo-octanoyl homoserine lactone (3OC8-HSL), enhanced Arabidopsis resistance to the hemi-biotrophic bacteria Pseudomonas syringae pv. tomato DC3000 through priming the salicylic acid (SA) pathway. Here, we found that 3OC8-HSL could also prime resistance to the necrotrophic bacterium Pectobacterium carotovorum ssp. carotovorum ( Pcc ) through the jasmonic acid (JA) pathway, and is dependent on auxin responses, in both Chinese cabbage and Arabidopsis. The subsequent Pcc invasion triggered JA accumulation and increased the down-stream genes’ expressions of JA synthesis genes ( LOX , AOS , and AOC ) and JA response genes ( PDF1.2 and VSP2 ). The primed state was not observed in the Arabidopsis coi1 - 1 and jar1-1 mutants, which indicated that the primed resistance to Pcc was dependent on the JA pathway. The 3OC8-HSL was not transmitted from roots to leaves and it induced indoleacetic acid (IAA) accumulation and the DR5 and SAUR auxin-responsive genes’ expressions in seedlings. When Arabidopsis and Chinese cabbage roots were pretreated with exogenous IAA (10 μM), the plants had activated the JA pathway and enhanced resistance to Pcc , which implied that the JA pathway was involved in AHL priming by coordinating with the auxin pathway. Our findings provide a new strategy for the prevention and control of soft rot in Chinese cabbage and provide theoretical support for the use of the quorum-sensing AHL signal molecule as a new elicitor.

Topics & Concepts

Pectobacterium carotovorumJasmonic acidArabidopsisPectobacteriumHomoserineBiologyAuxinSalicylic acidPseudomonas syringaeSystemic acquired resistanceMutantMicrobiologyQuorum sensingBiochemistryBotanyGeneVirulencePlant Parasitism and ResistancePlant-Microbe Interactions and ImmunityPlant Pathogenic Bacteria Studies