Disclosed are shelf stable water miscible suspension systems for suspending microbes and/or microbe derived metabolites so they are water dispersible and can be combined with a variety of agricultural chemicals in an aqueous solution. The microbes and/or microbe derived metabolites are initially suspended in a plant derived oil and then this oil suspension is converted to a water dispersible suspension using one of the disclosed suspension systems. The microbe and/or microbe derived metabolites in the suspension systems are shelf stable for at least 52 weeks at 25° C.

The present disclosure provides a process for preventing, and alleviating citrus greening infection of citrus plants including identifying the causative agent, providing consortia comprising Trichoderma spp. and Pseudomonas spp. in definite ratios effective in targeting the causative agent Phytophthora spp. and thereby preventing or alleviating the citrus greening disease in an effective manner. The present disclosure also provides consortia comprising standardized cultures of Trichoderma spp. in varying ratios and Pseudomonas spp. in varying ratios effective in preventing and controlling the causative agent Phytophthora spp. at different ages of citrus plants and stages of infection. The present disclosure further provides formulations comprising the antagonist microbial consortia and tailor made kits comprising one or more formulations of the present disclosure for managing citrus greening disease.

Provided is an inexpensive and efficient microbiological method for producing a protein. The method for producing a protein comprises culturing a microorganism while feeding a mixture of glucose and ammonia.

A fungal strain of the genus Trichoderma with the designation HSA12 and compositions that contain said fungal strain or spores thereof is disclosed. The fungal strain or spores thereof are promoting stabilizing plant growth, increasing the yields of crops, inoculating soil, roots and/or above-ground plant parts with the fungal strain or spores with compositions containing said fungal strain or spores thereof, to increase the efficiency of nutrient intake and to improve the stress tolerance of crops as well as improving the structure and health of the soil or for decontaminating or remediating soil or a body of water and for stabilizing or reestablishing endangered or desired wild plant populations. Also disclosed is a set of primer pairs for amplifying microsatellite loci of the genome of the fungal strain in order to determine molecular markers and to identify the fungal strain. A method for determining the fungal strain is also disclosed.

Provided is an inexpensive and efficient microbiological method for producing a protein. The method for producing a protein comprises culturing a microorganism in the presence of glycosylamine.

A mutant of a trichoderma filamentous fungus has a mutation that results in lost or lowered function of a beta-adaptin large subunit, or a mutation in an amino acid sequence that forms the beta-adaptin large subunit. A method produces a protein while maintaining a low viscosity in a culture solution during culturing by using the mutant.

A novel method of growing fungi is disclosed which uses an engineered artificial media and produces high density filamentous fungi biomats that can be harvested with a minimum of processing and from which fungal products such as antibiotics, proteins, and lipids can be isolated, the method resulting in lowered fungus cultivation costs for energy usage, oxygenation, water usage and waste stream production.

The present invention relates to a process for producing cellulolytic and/or hemicellulolytic enzymes with a strain of microorganism belonging to the family of filamentous fungi, said process comprising the following steps: (a) a first step of growing the fungi in an aqueous culture medium, in the presence of at least one carbon-based growth substrate, in a stirred and aerated bioreactor, (b) a second step of producing enzymes, starting with the aqueous culture medium obtained in the first step (a), in the presence of at least one inductive carbon-based substrate, also inducing the production of hydrophobins, and, in a step (d), at least a portion of the hydrophobins produced in step (b) are reintroduced into the growth step (a).

Described are methods for increasing the production of small molecules in a submerged Corynebacterium culture by supplementing Corynebacterium growth medium with the non-enzymatic fraction of spent Trichoderma fermentation broth.

A novel method of growing fungi is disclosed which uses an engineered artificial media and produces high density filamentous fungi biomats that can be harvested with a minimum of processing and from which fungal products such as antibiotics, proteins, and lipids can be isolated, the method resulting in lowered fungus cultivation costs for energy usage, oxygenation, water usage and waste stream production.