The present invention refers to a process designed to increase the production of plant growth-promoting microorganisms of the Bacillus genus, using a culture medium poor in nutrients and with specific environmental conditions, allowing to obtain a greater amount of biomass and/or spores, which can be used to prepare solid or liquid compositions to be applied to plants, aiming to promote their growth and/or counteract the effect of phytopathogenic agents.

A method of culturing bacteria of the Bacilli class is disclosed. The method comprises: (a) adding the bacteria to a medium comprising pasteurized starch fibers of a legume of a leguminous plant, and (b) culturing the bacteria under conditions that promote generation of a biofilm of the bacteria on the starch fibers.

Provided are bioactive compositions and metabolites derived from Bacillus and particularly Bacillus megaterium cultures responsible for controlling pests as well as their methods of use for controlling pests. Further provided are pesticidal Bacillus megaterium strains.

The present application relates to plant growth promoting microbes (PGPMs), compositions comprising these PGPMs and methods of using these PGPMs and a plant or plant seed, wherein the plant or plant seed comprises at least one grain yield enhancing trait, for enhancing plant health, plant growth and/or plant yield, and/or for preventing, inhibiting, or treating the development of plant pathogens or the development of phytopathogenic diseases.

The subject invention provides methods for improving the treatment of effluents and waste matter produced during food processing and production. In particular, the subject invention provides methods for remediating fats, oils and greases (FOG), suspended solids, proteins, and other organic matter that are discharged from plants that process, for example, meats, poultry, seafood, dairy and plant-based oils. The methods of the subject invention utilize a customized microbial cocktail comprising facultative anaerobes, in combination with one or more microbial growth by-products, e.g., enzymes and/or biosurfactants, to digest and/or liquefy food processing waste matter.

Provided herein are screening methods and animal models related to intraocular diseases such as age-related macular degeneration (AMD), for example, for identifying candidate therapeutics for treating or preventing eye diseases, such as AMD. Also provided herein are compounds/compositions that are useful for killing or inhibiting the growth of a microorganism, such as Bacillus megaterium. Further provided herein are methods of using the compounds/compositions for treating infections with a microorganism, such as Bacillus megaterium and for treating or preventing diseases or disorders associated with such infections, such as AMD.

A method for preparing natural vanillin via biooxidation of 4-methylguaiacol comprises (1) activating a strain and preparing a seed culture; (2) fermenting; (3) bioconversion; (4) adsorbing and eluting; and (5) concentrating and crystallizing.

The present invention relates to a process of converting feather materials into keratin-rich microfibers and soluble protein hydrolysate, the process comprising using a microbial hydrolysis technique.

Provided are bioactive compositions and metabolites derived from Bacillus and particularly Bacillus megaterium cultures responsible for controlling pests as well as their methods of use for controlling pests. Further provided are pesticidal Bacillus megaterium strains.

The invention relates to method for loading microorganisms or parts thereof on and/or in pre-synthesized multiphase biomaterials comprising nanocellulose wherein the microorganisms are resuspended in a buffer or a culture medium and loaded into and/or onto the multiphase biomaterial and the use of such a loaded multiphase biomaterial in nutritional, food, pharmaceutical, medical, cosmetic, especially oral, mucosal, dermal and transdermal, ocular, dermatological or female health applications.