XYLEM NAC DOMAIN 1 (EjXND1) relieves cold-induced lignification by negatively regulating the EjHB1-EjPRX12 module in loquat fruit.

Introduction: Lignin is a principal constituent of the secondary cell wall, which plays a role in both plant growth and defensing against stress, such as low temperature and pest infestation. Additionally, it also accumulates in fleshy fruits and negatively affects fruit quality. Red-fleshed loquat is temperature sensitive and exhibits cold-induced lignification. A number of technologies have been developed, for example, Low Temperature Conditioning (LTC) treatment, which has been applied in order to relieve the symptom of cold injury.

Objectives: The present study seeks to elucidate the regulatory mechanism underlying cold-induced lignification in loquat fruit.

Methods: The target genes were isolated through the analysis of transcriptome. The gene function was analyzed by transient transgenic method in tobacco leaves and loquat fruit, respectively, as well as stable overexpression in liverwort. The regulatory mechanism study was achieved by in vitro protein-protein interaction assays, dual-luciferase assay, and EMSA.

Results: In the present study, the Xylem NAC Domain transcription factor EjXND1 was identified as a repressor of loquat fruit lignification. It was demonstrated that EjXND1 could interact with the characterized lignin activator EjHB1, resulting in a diminution of the activation of EjHB1 on EjPRX12 promoter. Furthermore, two highly methylated regions were identified in the promoter of EjXDN1. One of these regions exhibited a negative correlation between methylation level and EjXND1 expression. Additionally, it was shown that hypermethylation of this region weaken the binding affinity of EjXND1 activators to its promoter.

Conclusion: The EjXND1 plays a role in modified Low Temperature Conditioning (mLTC) treatment that alleviates cold-induced lignification in red-fleshed loquat fruit by targeting the EjHB1-EjPRX12 module and EjXND1 is regulated by the dynamic of DNA methylation level in the promoter.