The disclosure discloses an Aspergillus niger engineered strain for reducing byproduct fumaric acid in a fermentation process of L-malic acid. The Aspergillus niger engineered strain is an Aspergillus niger engineered strain in which a fumarate hydratase gene fum is knocked out. The disclosure overcomes the defects in the prior art, in the current process of producing malic acid through fermentation of Aspergillus niger, byproduct fumaric acid can be accumulated with the generation of malic acid so as to cause the improved cost of the subsequent malic acid purification process. The disclosure provides an Aspergillus niger engineered strain in which a fum gene is knocked out and a method for greatly reducing byproduct fumaric acid in the fermentation production of Aspergillus niger.

Fungi that are genetically inactivated for the mstC gene (or a homolog thereof) are provided, which can also be genetically modified to increase production of heterologous proteins from a glucoamylase promoter. Methods of using these fungi, for example to degrade a biomass, are also provided.

The present invention relates to a method for improving the preparation of fermented black color ginseng containing functional ingredients at high contents based on safety, specifically to a novel Aspergillus niger KHNT-1 strain deposited with accession number KCTC14739BP; an improved process for preparing fermented black color ginseng through treatment with the strain, steaming utilizing pottery, and drying utilizing an LED dryer; fermented black color ginseng containing functional ingredients, ginsenosides Rg5, Rg3, and Rk1, and CK at high contents; and a composition for preventing, improving, or treating coronavirus infectious disease, the composition containing the fermented black color ginseng as an active ingredient.

As the fermented black color ginseng is prepared through fermentation using the novel Aspergillus niger KHNT-1 strain according to the present invention, steaming utilizing pottery as a steamer, and drying (fermentation) utilizing a medical LED as a dryer/fermenter, the method for improving the preparation of fermented black color ginseng is economical and safe since the preparation process takes 7 to 15 days and benzopyrene is not detected in the fermented black color ginseng, and the fermented black color ginseng contains ginsenosides Rg3, Rg5, and Rk1, and CK at high contents, and can be usefully utilized as a high value-added new drug raw material that is required to be contained at a high content per unit and in the field of high-functional food development.

The purpose of the present invention is to provide an organism having an ergothioneine productivity that is capable of easily producing ergothioneine within a short period of time at a high yield, as compared with a conventional technology, and, therefore, enables ergothioneine production on an industrial scale. This purpose can be achieved by a transformed fungus into which a gene encoding enzyme (1) or genes encoding enzymes (1) and (2) have been inserted and in which the inserted gene(s) are overexpressed. (1) an enzyme catalyzing a reaction of synthesizing hercynyl cysteine sulfoxide from histidine and cysteine in the presence of S-adenosyl methionine, iron (II) and oxygen. (2) An enzyme catalyzing a reaction of synthesizing ergothioneine from hercynyl cysteine sulfoxide using pyridoxal 5′-phosphate as a coenzyme.

The present invention relates to mutated filamentous fungal host cell producing a secreted polypeptide of interest, wherein a native putative steroid dehydrogenase is modified, truncated, partly or fully inactivated, present at reduced level or eliminated compared to a non-mutated parent cell, and wherein said native putative steroid dehydrogenase comprises at least one conserved amino acid motif selected from: YGAR and/or VPHS[W/Y]F and/or QC[A/V/S]RRL and/or LKKYTLP and/or CPHYT, and methods of producing a secreted polypeptide of interest in said cells as well as methods of producing said cells.

The present invention relates to filamentous fungal cells secreting a polypeptide of interest, wherein the expression of a citT gene is altered, reduced or eliminated compared to a non-mutated otherwise isogenic or parent cell, and methods of producing a secreted polypeptide of interest in said cells as well as methods of producing said cells.

Fumonisins are a type of mycotoxin that contaminate different products, for example, feed and food products, including corn-based products, which can lead to serious health risks to humans and livestock. Current methods for detoxifying fumonisin-contaminated products are complex and expensive. The present disclosure provides a recombinant microbial host cell expressing an heterologous polypeptide having fumonisin amine oxidase activity, the recombinant microbial host cell comprising an heterologous nucleic acid molecule encoding the heterologous polypeptide having fumonisin amine oxidase activity, a variant thereof or a fragment thereof. The heterologous polypeptide having fumonisin amine oxidase activity can be used to detoxify a fumonisin mycotoxin present in feed and food products, for example from grains and products derived from grains.

The present invention relates to filamentous fungal cells secreting a polypeptide of interest, wherein the expression of a citT gene is altered, reduced or eliminated compared to a non-mutated otherwise isogenic or parent cell, and methods of producing a secreted polypeptide of interest in said cells as well as methods of producing said cells.

Disclosed is an Aspergillus niger seed continuous culture method, comprising the steps of: (1) at a startup stage, Aspergillus niger spores are inoculated into a seed culture medium to obtain a seed liquid; (2) at a seed continuous culture stage, continuous dispersion treatment is performed on the seed liquid obtained in step (1), continuous culture is performed on the seed liquid obtained by dispersion, and meanwhile, a fresh seed feed medium is replenished; and (3) at a stop stage, the replenishment of the fresh seed feed medium and the dispersion treatment are stopped, continuous culture is performed to obtain a seed liquid, and then the seed liquid is transferred into the fermentation medium for fermentation culture. The method according to the present invention makes breakthrough to solve problems that multi-cellular filamentous bacteria grow slowly and mycelium pellets are easy to lose in continuous culture, thus fully achieving seed continuous culture.

The present invention relates to phospholipase D-inactivated filamentous fungal cells secreting a polypeptide of interest and methods of producing a secreted polypeptide of interest in said cells as well as methods of producing said cells.