Litcius/Paper detail

Cellobiose elicits immunity in lettuce conferring resistance to<i>Botrytis cinerea</i>

Jiuxing He, Meng Kong, Yuanchao Qian, Min Gong, Guohua Lv, Jiqing Song

2022Journal of Experimental Botany21 citationsDOI

Abstract

Cellobiose is the primary product of cellulose hydrolysis and is expected to function as a type of pathogen/damage-associated molecular pattern in evoking plant innate immunity. In this study, cellobiose was demonstrated to be a positive regulator in the immune response of lettuce, but halted autoimmunity when lettuce was exposed to concentrations of cellobiose >60 mg l-1. When lettuce plants were infected by Botrytis cinerea, cellobiose endowed plants with enhanced pre-invasion resistance by activating high β-1,3-glucanase and antioxidative enzyme activities at the initial stage of pathogen infection. Cellobiose-activated core regulatory factors such as EDS1, PTI6, and WRKY70, as well as salicylic acid signaling, played an indispensable role in modulating plant growth-defense trade-offs. Transcriptomics data further suggested that the cellobiose-activated plant-pathogen pathways are involved in microbe/pathogen-associated molecular pattern-triggered immune responses. Genes encoding receptor-like kinases, transcription factors, and redox homeostasis, phytohormone signal transduction, and pathogenesis-related proteins were also up- or down-regulated by cellobiose. Taken together, the findings of this study demonstrated that cellobiose serves as an elicitor to directly activate disease-resistance-related cellular functions. In addition, multiple genes have been identified as potential modulators of the cellobiose-induced immune response, which could aid understanding of underlying molecular events.

Topics & Concepts

CellobioseBiologyBotrytis cinereaPlant ImmunityInnate immune systemCellobiose dehydrogenasePathogenCell biologyImmune systemJasmonic acidBiochemistryMicrobiologyGeneBotanyEnzymeGeneticsArabidopsisCellulaseMutantPlant-Microbe Interactions and ImmunityPlant Stress Responses and TolerancePlant pathogens and resistance mechanisms