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Pochonia chlamydosporia Isolate PC-170-Induced Expression of Marker Genes for Defense Pathways in Tomatoes Challenged by Different Pathogens

Xia Zhuang, Jianlong Zhao, Miao Bai, Xingxing Ping, Yanlin Li, Yuhong Yang, Zhenchuan Mao, Guoshun Yang, Bingyan Xie

2021Microorganisms16 citationsDOIOpen Access PDF

Abstract

Pochonia chlamydosporia is a fungal parasite of nematode eggs. Studies have shown that some strains of Pochonia chlamydosporia can promote plant growth and induce plants’ systemic resistance to root-knot nematodes by colonizing in their roots. This study aimed to verify the effect of the PC-170 strain on tomato growth and systemic resistance. Split-root experiments were conducted to observe the systemic resistance induced by PC-170. To explore the defense pathway that was excited due to the colonization by PC-170, we tested the expression of marker genes for defense pathways, and used mutant lines to verify the role of plant defense pathways. Our results showed that PC-170 can colonize roots, and promotes growth. We found a role for jasmonic acid (JA) in modulating tomato colonization by PC-170. PC-170 can activate tomato defense responses to reduce susceptibility to infection by the root-knot nematode Meloidogyne incognita, and induced resistance to some pathogens in tomatoes. The marker genes of the defense pathway were significantly induced after PC-170 colonization. However, salicylic acid (SA)- and jasmonic acid (JA)-dependent defenses in roots were variable with the invasion of different pathogens. Defense pathways play different roles at different points in time. SA- and JA-dependent defense pathways were shown to cross-communicate. Different phytohormones have been involved in tomato plants’ responses against different pathogens. Our study confirmed that adaptive JA signaling is necessary to regulate PC-170 colonization and induce systemic resistance in tomatoes.

Topics & Concepts

Jasmonic acidBiologyMeloidogyne incognitaPlant defense against herbivoryRoot-knot nematodeDefence mechanismsSalicylic acidColonizationNematodeGeneSystemic acquired resistanceNematode infectionLycopersiconMicrobiologyBotanyMutantGeneticsArabidopsisEcologyNematode management and characterization studiesLegume Nitrogen Fixing SymbiosisPlant-Microbe Interactions and Immunity