Provided are a 4-ureido-5-carboxyl-imidazole-amide hydrolase and use thereof, particularly use in the treatment of gout.

Conditionally replicating recombinant cells, compositions and vaccines having the cells, and methods of using the cells, are provided.

Constructs, host cells, fungi, seeds, plants, and methods are described herein can include a Serendipita indica terpenoid synthase (SiTPS). Such constructs host cells, fungi, seeds, plants, and methods are useful, for example, for making viridiflorol. As described herein, the basidionycete Serendipita indica, a non-specific-host root endophyte fungus, possesses a functional terpenoid synthase gene (SiTPS). Heterologous expression of SiTPS in host cells showed that the produced protein efficiently utilizes the fifteen-carbon precursor farnesylpyrophosphate (FTP) to synthesize the sesquiterpene alcohol viridiflorol, shown below.

The present invention provides engineered proline hydroxylase polypeptides for the production of hydroxylated compounds, polynucleotides encoding the engineered proline hydroxylases, host cells capable of expressing the engineered proline hydroxylases, and methods of using the engineered proline hydroxylases to prepare compounds useful in the production of active pharmaceutical agents.

The present invention discloses a mutant of cyclodextrin glycosyltransferase and belongs to the fields of gene engineering and enzyme engineering. According to the present invention, a mutant having higher disproportionation activity of cyclodextrin glycosyltransferase is obtained by mutating the cyclodextrin glycosyltransferase. The disproportionation activity of enzymes of mutants V6D, S90G, T168A, T171A, T383A, G608A, and V6D/S90G/T168A/T171A/T383A/G608A, is respectively 1.89 times, 1.21 times, 1.21 times, 1.22 times, 1.32 times, 2.03 times, and 3.16 times that of the wild type enzyme in shake flask fermentations.

The present invention relates to a covalently closed circular recombinant DNA molecule comprising an origin of replication and an insert comprising a homopolymeric region, wherein the homopolymeric region is located at a distance of least 500 bp from the origin of replication in the direction of replication and/or wherein the insert comprising a homopolymeric region is oriented so that the direction of transcription of the insert is the same as the direction of replication of the origin of replication. The invention further relates to the use of the covalently closed circular recombinant DNA molecule for increasing the yield and/or shortening the fermentation time during fermentation.

Provided herein are a method for producing ergothionine, comprising N (α)-trimethyl histidine and an oxidative sulfurizing enzyme mutant. With the mutant enzyme's help, the conversion rate is higher than 30% with the mutant enzyme amount of 8000/g substrate in 24 hours. Disclosed are a nucleic acid encoding the mutant enzyme, an expression vector comprising the nucleic acid, an expressing host comprising the nucleic acid or the expression vector, and the use of the mutant enzyme EanB for producing the ergothioneine.

The invention provides a polypeptide comprising a phosphate translocator and a microbial membrane-integrating protein. The phosphate translocator may be a plastidic phosphate translocator and the membrane-integrating protein may be derived from Bacillus subtilis. The invention also provides a bacterium genetically modified to export phosphorylated compounds; such organism may contain the polypeptide of the invention and may be further modified to decrease the metabolism of phosphorylated compounds or increase the production of phosphorylated compounds. Also provided is a method for the manufacture of phosphorylated compounds, comprising culturing a bacterium according to the invention and extracting the phosphorylated compounds from the culture medium. The method may be for the manufacture of dihydroxyacetone phosphate (DHAP), and optionally, may include the further step of converting the DHAP into methylglyoxal.

The present disclosure is related to genetically engineered microbial strains and related bioprocesses for the production of products from acetyl-CoA. Specifically, the use of dynamically controlled synthetic metabolic valves to reduce the activity of certain enzymes, leads to increased product production in a two-stage process.

The present disclosure relates to an L-threonine export protein variant, a microorganism including same, and a method for production of L-threonine using same.