An object of the present invention is to provide a simple method of producing ergothioneine. The present invention provides a method of producing ergothioneine comprising a step of culturing a microbe belonging to the genus Moniliella in a medium containing a carbon source to allow the microbe to produce ergothioneine.

An object of the present invention is to provide a simple method of producing ergothioneine. The present invention provides a method of producing ergothioneine comprising a step of culturing a microbe belonging to the genus Moniliella in a medium containing a carbon source to allow the microbe to produce ergothioneine.

The present application relates to recombinant microorganisms useful in the biosynthesis of monoethylene glycol (MEG) or glycolic acid (GA), or MEG and one or more co-product, from one or more pentose and/or hexose sugars. Also provided are methods of producing MEG (or GA), or MEG (or GA) and one or more co-product, from one or more pentose and/or hexose sugars using the recombinant microorganisms, as well as compositions comprising the recombinant microorganisms and/or the products MEG (or GA), or MEG and one or more co-product.

The present invention relates to a method including culturing a C.sub.1 compound-assimilating bacterium, which is a methylotroph, and/or a yeast by using a medium comprising, for example, a C.sub.1 compound and/or glycerol as a carbon source, to thereby produce EGT.

The present invention relates to a method including culturing a C.sub.1 compound-assimilating bacterium, which is a methylotroph, and/or a yeast by using a medium comprising, for example, a C.sub.1 compound and/or glycerol as a carbon source, to thereby produce EGT.

Use of a stereoselective transaminase in the asymmetric synthesis of a chiral amine. In particular, provided is use of a polypeptide in the production of a chiral amine or a downstream product using a chiral amine as a precursor. Further provided is a method for producing a chiral amine, comprising culturing a strain expressing the polypeptide so as to obtain a chiral amine. Further provided are a chiral amine production strain and a method for constructing the chiral amine production strain. The stereoselective transaminase has a broad substrate spectrum and thus has a broad application potential in the preparation of a chiral amine.

Methods, compositions, and cells for generating acyl alcohols. Compositions comprising acyl alcohols. Methods of cleaving acyl amino acids and/or acyl alcohols to generate free fatty acids, free amino acids, and/or free alcohols.

Methods, compositions, and cells for generating acyl alcohols. Compositions comprising acyl alcohols. Methods of cleaving acyl amino acids and/or acyl alcohols to generate free fatty acids, free amino acids, and/or free alcohols.

The present disclosure relates to an artificial metabolon formed by selective self-assembly, production and use thereof, specifically, an artificial metabolon formed by de novo, in vivo assembly of multi-step metabolic pathway enzymes without using any external scaffold, production and use thereof.

The present disclosure relates to an artificial metabolon formed by selective self-assembly, production and use thereof, specifically, an artificial metabolon formed by de novo, in vivo assembly of multi-step metabolic pathway enzymes without using any external scaffold, production and use thereof.