Litcius/Paper detail

MADS2 regulates priming defence in postharvest peach through combined salicylic acid and abscisic acid signaling

Chunhong Li, Changyi Lei, Kaituo Wang, Meilin Tan, Feng Xu, Jinsong Wang, Yonghua Zheng

2022Journal of Experimental Botany34 citationsDOIOpen Access PDF

Abstract

MADS-box genes play well-documented roles in plant development, but relatively little is known regarding their involvement in defence responses. In this study, pre-treatment of peach (Prunus persica) fruit with β-aminobutyric acid (BABA) activated resistance against Rhizopus stolonifer, leading to a significant delay in the symptomatic appearance of disease. This was associated with an integrated defence response that included a H2O2 burst, ABA accumulation, and callose deposition. cDNA library screening identified nucleus-localized MADS2 as an interacting partner with NPR1, and this was further confirmed by yeast two-hybrid, luciferase complementation imaging, and co-immunoprecipitation assays. The DNA-binding activity of NPR1 conferred by the NPR1-MADS2 complex was required for the transcription of SA-dependent pathogenesis-related (PR) and ABA-inducible CalS genes in order to gain the BABA-induced resistance, in which MAPK1-induced post-translational modification of MADS2 was also involved. In accordance with this, overexpression of PpMADS2 in Arabidopsis potentiated the transcription of a group of PR genes and conferred fungal resistance in the transgenic plants. Conversely, Arabidopsis mads2-knockout lines showed high sensitivity to the fungal pathogen. Our results indicate that MADS2 positively participates in BABA-elicited defence in peach through a combination of SA-dependent NPR1 activation and ABA signaling-induced callose accumulation, and that this defence is also related to the post-translational modification of MADS2 by MAPK1 for signal amplification.

Topics & Concepts

Abscisic acidArabidopsisCalloseNPR1Salicylic acidBiologyCell biologyBimolecular fluorescence complementationTranscription factorSystemic acquired resistanceComplementationGeneBiochemistryMutantHeart failureInternal medicineNatriuretic peptideMedicinePlant-Microbe Interactions and ImmunityPlant Stress Responses and TolerancePlant Pathogenic Bacteria Studies