Bidirectional Interaction between Phyllospheric Microbiotas and Plant Volatile Emissions

TL;DR: In this paper, the authors review the patterns and potential underlying mechanisms of interactions between secondary metabolites and plant microbiomes and describe the recent developments in analytical approaches and methods in this field.

TL;DR: Application of PHs has great potential to meet the twin challenges of a feeding a growing population while minimizing agriculture’s impact on human health and the environment, as well as identify product formulations and application methods that optimize benefits under a range of agro-ecological conditions.

TL;DR: This review highlights the main findings on the composition and function of the plant microbiome, and underline the potential of plant microbiomes in the dissemination of antibiotic resistance via food consumption or direct contact.

TL;DR: Key classes of specialized metabolites that occur as mostly non-volatile compounds in root exudates or are emitted as volatile organic compounds (VOCs) are reviewed.

TL;DR: This paper reviews the classical methods commonly used for the evaluation of essential oils antibacterial and antifungal activities and finds essential oils of spices and herbs were found to possess the strongest antimicrobial properties among many tested.

TL;DR: Insights into the underlying structural principles of indigenous microbial phyllosphere populations will help to develop a deeper understanding of the phyllospheric microbiota and will have applications in the promotion of plant growth and plant protection.

TL;DR: This review focuses on the functions of plant volatiles, their biosynthesis and regulation, and the metabolic engineering of the volatile spectrum, which results in plant defense improvement and changes of scent and aroma properties of flowers and fruits.

TL;DR: These strategies are based on different ring activation mechanisms that consist of either formation of a non-aromatic ring-epoxide under oxic conditions, or reduction of the aromatic ring under anoxic conditions using one of two completely different systems.