The present invention relates to the use of a defoaming agent for preventing pellet morphology of thermophilic fungi when grown at acidic pH in chemically defined media. The invention pertains to processes for producing a fermentation product, wherein the thermophilic fungus, e.g. a Rhizomucor species, is grown in submerged culture at acidic pH in a chemically defined medium and wherein the strain is cultured in the presence of a defoaming agent. The defoaming agent can be a vegetable oil such as olive or sun flower oil and the fermentation product can be single cell protein in the form of biomass of the thermophilic fungus for use as a dietary source of protein.

The present disclosure relates to engineered microbial cells that have been engineered to include a uricase, a uric acid transporter, or both a uricase and a uric acid transporter. The engineered microbial cells of the present disclosure are useful in degrading uric acid inside the engineered microbial cell. The engineered microbial cells of the present disclosure are useful in methods of treating hyperuricemia. The engineered microbial cells of the present disclosure are also useful in methods of treating gout, and in particular chronic refractory gout.

A microorganism of the present invention is Dirkmeia churashimaensis (NITE BP-03054), Papiliotrema flavescens (NITE BP-03051), Papiliotrema flavescens (NITE BP-03052), or Apiotrichum porosum (NITE BP-03053).

A culture product comprising a large quantity of ethyl benzoate and has a more complex and fresher fruity aroma than a chemically synthesized product.

The culture product is obtained by culturing a microorganism belonging to the genus Wickerhamomyces in a milk component-containing culture medium.

The present invention provides a novel method for improving microbial laccase production, which relates to the field of microbial fermentation. The present invention is to add β-carotene and other types of carotenoids, or microorganisms that produce carotenoids, or mixtures comprising carotenoids into a fermentation system during fermentation of Pleurotus ferulae and other higher fungi. The present invention can improve the laccase production 12 times more than before, with the advantages of a simple process and high yield.

The present invention relates to a process for producing single cell protein, wherein a thermophilic fungus is grown a fermentable carbon-rich feedstock at a high temperature and at an acidic pH. This allows for a cost effective fermentation process that can to be run under non-sterile conditions and without additional cooling requirements. The process can be used to convert by-products or waste from agriculture or food production, or organic fractions of municipal solid waste into valuable single cell protein that can be applied as dietary source of protein or protein supplement in human food or animal feed.

A method of making a foodstuff comprises selecting a mass comprising an edible filamentous fungus, especially of Fusarium venenatum; selecting an ingredient (A) which may be pea protein; and processing said mass and ingredient (A) in an extruder cooker to produce an extruded foodstuff.

The present invention deals with the formation of Natural Organic Nano-Fertilizers with the chelated nano-nutrients to balance plant nutrition; improve water holding capacity, soil health improvement, sustainable productivity and quality improvement. The present invention involves production of eco-friendly and low cost process for the synthesis of nanoparticles of nano-nutrients by utilizing microorganisms comprising of two lab adapted strains of Aspergillus species, one lab adapted strain of Lactobacillus sp. and lactate, gluconate and proteinate salts as a source of nutrient leads to formation of metal nanoparticles (Zn, Mg, Fe and P) with the size of <20 nms. The present invention increases 12-20% of crop yield, stress tolerance of the crops, nutrient mobilization increases and 3 fold increase in nutrient use efficiency.

Antimicrobial compositions comprising one or more compound components generally recognized as safe for human consumption, and related methods of use, such compositions and methods as can be employed in a wide range of agricultural, industrial, building, pharmaceutical and/or personal care products and applications.

The invention discloses a strain of Monascus purpureus with high esters producing activity and the application in the production of ester flavored Monascus cheese. The strain was deposited in China General Microbiological Culture Collection Center (CGMCC) on Oct. 17, 2019, with the preservation number of CGMCC 18589. The strain can make the cheese flavor having less pungent, and richer, significantly improve the odor quality of cheese, thus more in line with the taste of Chinese people. Moreover, some secondary metabolites responsible for health benefits including hypolipidemia, antihypertensive, antioxidant, and antihyperglycemic effects and prevention of obesity and diabetes development have been recognized in Monascus-fermented cheese.