AI Article Synopsis
- Classical methods for controlling plant pathogens are becoming less effective due to issues like pathogen resistance and limited availability of effective pesticides, prompting a shift towards safer antimicrobial strategies.
- The emerging technique of antimicrobial photodynamic treatment utilizes light-activated substances, which have proven effective in both clinical and agricultural settings to combat plant pathogens and foodborne bacteria.
- This review examines the ecology of natural photoantimicrobials, the mechanisms behind their antimicrobial actions, and their potential role in enhancing plant health and global food security.
Article Abstract
Classical approaches for controlling plant pathogens may be impaired by the development of pathogen resistance to chemical pesticides and by limited availability of effective antimicrobial agents. Recent increases in consumer awareness of and/or legislation regarding environmental and human health, and the urgent need to improve food security, are driving increased demand for safer antimicrobial strategies. Therefore, there is a need for a step change in the approaches used for controlling pre- and post-harvest diseases and foodborne human pathogens. The use of light-activated antimicrobial substances for the so-called antimicrobial photodynamic treatment is known to be effective not only in a clinical context, but also for use in agriculture to control plant-pathogenic fungi and bacteria, and to eliminate foodborne human pathogens from seeds, sprouted seeds, fruits, and vegetables. Here, we take a holistic approach to review and re-evaluate recent findings on: (i) the ecology of naturally-occurring photoantimicrobials, (ii) photodynamic processes including the light-activated antimicrobial activities of some plant metabolites, and (iii) fungus-induced photosensitization of plants. The inhibitory mechanisms of both natural and synthetic light-activated substances, known as photosensitizers, are discussed in the contexts of microbial stress biology and agricultural biotechnology. Their modes-of-antimicrobial action make them neither stressors nor toxins/toxicants (with specific modes of poisonous activity), but a hybrid/combination of both. We highlight the use of photoantimicrobials for the control of plant-pathogenic fungi and quantify their potential contribution to global food security.
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| http://dx.doi.org/10.1016/j.jphotobiol.2022.112548 | DOI Listing |
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