Antifungal Metabolite p-Aminobenzoic Acid (pABA): Mechanism of Action and Efficacy for the Biocontrol of Pear Bitter Rot Disease.
Pedro LabordaChaohui LiYangyang ZhaoBao TangJun LingFeng HeFengquan LiuPublished in: Journal of agricultural and food chemistry (2019)
Colletotrichum fructicola, a fungal pathogen that causes bitter rot disease in pears, has recently emerged in Eastern Asia and caused enormous economic losses and crop penalties. For this reason, new strategies for the management of bitter rot disease are greatly needed and can have a great impact on the field. In this regard, our research group recently reported that p-aminobenzoic acid (pABA), which was found in the secretions of rhizobacterium Lysobacter antibioticus OH13, showed a broad spectrum of antifungal activities. Following this project, the antifungal mode of action of pABA has been elucidated in this work indicating that pABA affects the fungal cell cycle of C. fructicola by inhibiting septation during cell division. pABA stability and diffusion screening revealed that pABA degrades after 15 days and is able to cross the pear skin into the external parts of the mesocarp. In vivo studies demonstrated that pABA shows high curative ability against the infection of C. fructicola in pears. To show the efficacy of OH13 for the biocontrol of bitter rot disease, cultures of OH13 containing 379.4 mg/L pABA were sprayed on inoculated pears, significantly reducing the symptoms of the pathogen.