Abstract: The inventive technology generally relates to novel plant endophytic bacterial strains that may colonize discrete plant tissues, and in particular the roots of a plant and may further be engineered to express and deliver interfering RNA molecules throughout the plant.

Abstract: Disclosed herein are methods of treating or improving resistance against Pierce's disease in Vitis vinifera via administration of a menadione containing composition. Also disclosed are methods of treating Citrus exhibiting symptoms of Huanglongbing disease.

Abstract: Methods and compositions based upon natural phenolic aromatic aldehydes (ex: cinnamaldehyde, benzaldehyde) are provided, which find use as curing agents for systemic bacterial infections of living plants, in particular against Gram negative bacteria and more particularly species of Liberibacter, including Ca. Liberibacter asiaticus. The curing agent compositions described are used synergistically with other antimicrobial compounds, such as those that plants manufacture or release as a result of biotic or abiotic stresses, including the application of the subject aldehydes, certain proteins, whether produced by recombinant methods or not, nanoparticles, nanoemulsions, or by natural essential oils such as carvacrol or allicin. The aromatic aldehydes have high volatility and exhibit phytotoxicity when applied above certain amounts. Systemic infections and infestations of a variety of plant parts can be treated, including those of leaves and roots.

Abstract: The present invention teaches methods and compositions useful for treating, preventing, or curing pathogen infections of living plants. In particular, the present invention teaches methods of enhancing plant response to pathogen-associated molecular patterns. The methods and compositions described herein are effective at treating biotrophic pathogens, including Liberibacters.

Abstract: The present invention teaches methods and compositions useful for treating, preventing, or curing pathogen infections of living plants. In particular, the present invention teaches methods of enhancing plant response to pathogen-associated molecular patterns. The methods and compositions described herein are effective at treating biotrophic pathogens, including Liberibacters.

Abstract: Methods and compositions based upon natural phenolic aromatic aldehydes (ex: cinnamaldehyde, benzaldehyde) are provided, which find use as curing agents for systemic bacterial infections of living plants, in particular against Gram negative bacteria and more particularly species of Liberibacter, including Ca. Liberibacter asiaticus. The curing agent compositions described are used synergistically with other antimicrobial compounds, such as those that plants manufacture or release as a result of biotic or abiotic stresses, including the application of the subject aldehydes, certain proteins, whether produced by recombinant methods or not, nanoparticles, nanoemulsions, or by natural essential oils such as carvacrol or allicin. The aromatic aldehydes have high volatility and exhibit phytotoxicity when applied above certain amounts. Systemic infections and infestations of a variety of plant parts can be treated, including those of leaves and roots.

Abstract: Methods and compositions based upon using phenolic aromatic aldehydes (ex: cinnamaldehyde, benzaldehyde) are provided, which find use as agents for treating, preventing, or curing systemic bacterial infections of living plants, in particular against Gram negative bacteria and more particularly species of Liberibacter, including Ca. Liberibacter asiaticus. The agent compositions described are used synergistically with other antimicrobial compounds, such as those that plants manufacture or release as a result of biotic or abiotic stresses, including the application of the aldehydes, proteins, whether produced by recombinant methods or not, or by essential oils such as carvacrol or allicin. Methods of applying the compositions for agriculture use are disclosed.