Transcriptomic analysis – Transient expression of CYP714C2 improves resistance in pears

Abstract

Postharvest pear fruit is highly susceptible to infection by pathogens, particularly by Penicillium expansum. The cytochrome P450 family plays a crucial role in the plant's defense response against pathogen invasion. However, the mechanism underlying CYP714C2 defense in pear fruit remains unclear. In this study, we investigated the molecular and physiological changes in pears after overexpressing CYP714C2 using transient expression technology and transcriptomics analysis. Our findings demonstrate that the up-regulation of CYP714C2 significantly enhances the expression of genes related to pear resistance, including CDPK, CNGC, FLS2, WRKY22, WRKY29, PYL1, ETR, ERS, EIL3, ERF1, NPR, GST, BGLU and others. Moreover, CYP714C2 overexpression altered starch and sucrose metabolism, pentose and glucuronate interconversions, glutathione metabolism, plant hormone signal transduction, MAPK signaling pathway - Plant, plant-pathogen interaction and other resistance-related pathways. Meanwhile, SOD, POD and GST activities of pear were increased. The transient expression of CYP714C2 also resulted in reduced incidence and severity of pathogen infection in pears. It was also found that CYP714C2 protein can interact with GA2ox1 which is a key protein in gibberellin metabolic pathway. As a result, the research showed that CYP714C2 played a role in enhancing resistance in pear fruit and detailed its molecular mechanism for enhancing fruit resistance. This provides a theoretical foundation for future exploration of fruit disease resistance.