Recombinant Aspergillus genetically modified to increase expression of g8846, renamed herein as aconitic acid exporter (aexA), are provided, which in some examples are also genetically inactivated for an endogenous cis-aconitic acid decarboxylase (cadA) gene. Such recombinant Aspergillus produce more aconitic acid as compared to native Aspergillus. Also provided are methods of using such recombinant Aspergillus to increase production of aconitic acid and other organic acids, such as citric acid, itaconic acid, and 3-hydroxypropionic acid (3-HP).

A newly developed butane-tetraol-based amphiphilic compound, a method of preparing the same, and a method of extracting, solubilizing, stabilizing, crystallizing or analyzing a membrane protein using the amphiphilic compound are provided. The butane-tetraol-based compound is found to have a central structure exhibiting chirality, and isomers of the compound have clearly different characteristics according to the stereochemistry of the central structure, thereby making it possible to select compounds suitable for the uses thereof. Also, the compound can be used to effectively extract a membrane protein, which has more various structures and characteristics than conventional compounds, from cell membranes and stably store the membrane protein in an aqueous solution for a long time, and thus analyze the function and structure of the membrane protein. The analysis of the structure and function of the membrane protein is one of the fields which have received the most attention in biology and chemistry since the analysis of the structure and function of the membrane protein is closely associated with the development of new drugs.

A newly developed butane-tetraol-based amphiphilic compound, a method of preparing the same, and a method of extracting, solubilizing, stabilizing, crystallizing or analyzing a membrane protein using the amphiphilic compound are provided. The butane-tetraol-based compound is found to have a central structure exhibiting chirality, and isomers of the compound have clearly different characteristics according to the stereochemistry of the central structure, thereby making it possible to select compounds suitable for the uses thereof. Also, the compound can be used to effectively extract a membrane protein, which has more various structures and characteristics than conventional compounds, from cell membranes and stably store the membrane protein in an aqueous solution for a long time, and thus analyze the function and structure of the membrane protein. The analysis of the structure and function of the membrane protein is one of the fields which have received the most attention in biology and chemistry since the analysis of the structure and function of the membrane protein is closely associated with the development of new drugs.

The present invention provides a class of new mutant proteins for increasing malic acid yield. Specifically, the present invention provides a class of new pyruvate carboxylase mutant protein and malic acid transporter mutant proteins or combinations thereof, a preparation method therefor and use thereof in improving malic acid yield.

The present disclosure provides a composition comprising, (i) protein at a protein content of at least about 16% by dry weight, wherein at least about 50% by dry weight of the protein has an amino acid sequence encoded by one or more fungal genomes, and (ii) one or more materials selected from the group consisting of a flour, an oil, a flavoring agent, and a nutritional supplement, wherein the composition has a water content that is less than or equal to about 30% water by weight.

The present disclosure provides a composition comprising, (i) protein at a protein content of at least about 16% by dry weight, wherein at least about 50% by dry weight of the protein has an amino acid sequence encoded by one or more fungal genomes, and (ii) one or more materials selected from the group consisting of a flour, an oil, a flavoring agent, and a nutritional supplement, wherein the composition has a water content that is less than or equal to about 30% water by weight.

The present invention relates to methods for increasing yield of compounds of interest produced by microbial cells, in particular recombination proteins produced by microbial cells. The present invention also relates to the use of peptone as a yield increasing agent in a method of production of a compound of interest. The present invention provides the compounds of interest, such as recombinant proteins, obtained by the method of the invention.

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.

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 disclosure relates to intercellular signaling between genetically-engineered cells and, more specifically, to a scalable peptide-GPCR intercellular signaling system. The present disclosure provides an intercellular signaling system that includes at least two cells that have been genetically-engineered to communicate with each other, methods of use and kits thereof.