作者:Muccilli Vera, Vitale Alessandro, Sheng Ling, Gentile Alessandra, Cardullo Nunzio, Tringali Corrado, Oliveri Cinzia, La Rosa Rosa, Di Guardo Mario, La
摘要:The development of genetically modified (GM) crops speeds up the obtainment of novel varieties with improved agronomic characteristics. However, the risk evaluation of the use of GMs is mandatory before their release in the market. In this paper, an untargeted and comprehensive nuclear magnetic resonance-based metabolomic study was carried out on the peel and flesh of a transgenic lemon clone (E23) expressing the chit42 gene and exhibiting an increased tolerance to some pathogenic fungi and on its wild type. Results highlighted a substantial equivalence of the metabolomics profile of the transgenic clone compared to the wild type. In addition, an enhanced response of the E23 clone toward fungal pathogens affecting the postharvest management in lemon was evidenced. These results confirm the potential of genetic engineering for the punctual modification of specific agronomic traits without altering the whole pattern of metabolites and open new perspectives for a more sustainable and effective management of specific postharvest diseases in citrus.
文献注录:Muccilli Vera, Vitale Alessandro, Sheng Ling, Gentile Alessandra, Cardullo Nunzio, Tringali Corrado, Oliveri Cinzia, La Rosa Rosa, Di Guardo Mario, La. Substantial equivalence of a transgenic Lemon fruit showing postharvest fungal pathogens resistance [J]. Journal of Agricultural and Food Chemistry. 2020, 12: 3806-3816.
报/刊名:《Journal of Agricultural and Food Chemistry》,发表于2020 / 第 12 期。
文献类型: [J] (文献级别:SCI刊物)
页码:第 3806-3816 页 / 共10 页