Functional Analysis of the Pathogenesis-Related Protein 1 (CaPR1) Gene in the Pepper Response to Chilli veinal mottle virus (ChiVMV) Infection.
Chunzi Huang, Zengjing Zhao, Xing Wu, Hu Zhao, Meng Wang, Zhi He, Zongjun Li, Lihao Wang, Yafei Tang, Risheng Wang, Longfei He, Mingxia Gong
Abstract
Open AccessChilli veinal mottle virus (ChiVMV) causes severe yield losses in pepper across Asia. It is very urgent to study the host plant resistance to control this viral disease. As a type of defense response gene, pathogenesis-related protein 1 (PR1) is a well-established defense marker against fungal/bacterial pathogens, and its role in virus resistance remains unclear. Here, we cloned CaPR1 from the ChiVMV-highly resistant pepper variety 'Perennial'. The 477 bp ORF encodes a 17.65 kDa basic protein containing a conserved CAP-PR1 domain. The subcellular localization of CaPR1 revealed that it was located in the plasma membrane, endoplasmic reticulum (ER), and nucleus. RT-qPCR revealed leaf-predominant expression, with earlier and stronger induction in the highly resistant than the highly susceptible variety after ChiVMV inoculation (6.4-fold at 2 days post-inoculation). The overexpression of CaPR1 in tobacco significantly increased resistance, reducing disease index by 25% and viral coat protein accumulation. Our findings identified CaPR1 as a positive regulator of ChiVMV resistance, providing a molecular target for pepper breeding. In addition, exogenous SA treatment increased the resistance of the highly susceptible cultivar 'Guijiao 12' to ChiVMV, and 0.25 mM had a greater effect.