Abstract: A protein scaffold includes a plurality of EutM subunits and a multi-enzyme cascade. The multi-enzyme cascade includes a first enzyme attached to the first EutM subunit and a second enzyme attached to the second EutM subunit. The scaffold may be formed by a method that generally includes incubating a plurality of EutM subunits under conditions allowing the EutM subunits to self-assemble into a protein scaffold, attaching a first enzyme of a multi-enzyme cascade to a first EutM subunit, and attaching a second enzyme of the multi-enzyme cascade to a second EutM subunit. The scaffold may be self-assembled in vivo or in vitro. Each enzyme may be, independently of any other enzyme, attached to its EutM subunit in vivo or in vitro. Each enzyme may be, independently of any other enzyme, attached to its EutM subunit before or after the scaffold is assembled.

Abstract: The present invention provides a novel hydrolase that can industrially produce optically highly pure (1S,2S)-1-alkoxycarbonyl-2-vinylcyclopropane carboxylic acid with high efficiency at low costs, and a production method using the hydrolase.

Abstract: An isolated nucleic acid encoding an FX protein having a serine at position 79, a lysine at position 90, a leucine at position 136, an arginine at position 211, a serine at position 289, and a combination thereof is provided. Cells having a gene encoding a modified FX protein are provided, wherein the cells exhibit a reduced ability to fucosylate a glycoprotein at a first temperature, but exhibit the ability to fucosylate the glycoprotein at a second temperature. Methods and compositions for making glycoproteins with reduced fucosylation are provided.

Abstract: Variants of chymosin with improved milk clotting properties.

Abstract: A mutant glycine oxidase is obtained by substituting at least one wild-type amino acid sequence derived from thermophilic bacteria belonging to the family Bacillus with another amino acid, and has the following enzyme properties. Molecular weight: 40,000±2,000 daltons by SDS-PAGE. Optimum temperature: 45° C. under the condition of pH 8.5 in presence of pyrophosphate. Optimum pH: pH 8.0 under the condition of 37° C. in presence of pyrophosphate. Thermal stability: Stable up to 70° C. under the condition of pH 8.5 while retaining for 1 hour in presence of pyrophosphate. pH Stability: Stable in the range of pH 5.5 to 10.0 under the condition of 4° C. while retaining for 24 hours in presence of pyrophosphate. Specific activity: 1.2 units/mg or more. Kinetic constant Km: 0.2 mM or less.

Abstract: The present invention discloses encoding genes of nitrilase mutants and application thereof. The nucleotide sequence of the gene is shown in SEQ ID No.5, and the amino acid sequence of the mutant is shown in SEQ ID No.6. In the present invention, by the protein molecular modification, thermostability of the purified nitrilase LNIT5 is increased by up to 4.5 folds; and by utilizing recombinant E. coli containing the nitrilase mutant to hydrolyze 1-cyanocyclohexylacetonitrile at a high temperature, product tolerance is increased, activity of NIT5-L201F is increased by 20%, and the mutant NITLNIT5-AcN can completely hydrolyze 750 mM 1-cyanocyclohexylacetonitrile within 8 hours and achieve an doubled conversion rate. Therefore, the mutants obtained by the present invention have a good application prospect in efficiently catalyzing 1-cyanocyclohexylacetonitrile to synthesize gabapentin intermediate, 1-cyanocyclohexyl acetic acid.

Abstract: A method for the bio-production of threonine including genetically modified yeasts and a method in which they are used to produce threonine, as compared to the parent yeasts.

Abstract: The present invention relates to a novel microorganism capable of metabolizing various carbon sources at high rates. A novel microorganism according to the present invention was observed to grow at a very high rate in a minimal medium/nutrient medium, etc., compared to microorganisms such as Escherichia coli, and shows resistance at a high initial sugar/salt concentrations as well as being able to produce lycopene and 2,3-butanediol through genetic manipulation. Therefore, the novel microorganism can be used in various production fields of high value-added compounds using microorganisms.

Abstract: The present invention discloses a recombinant vector constructed from an encoding gene of a nitrilase mutant, a recombinant genetic engineered strain and application thereof the nucleotide sequence of the gene is shown in SEQ ID No. 5, and the amino acid sequence of the mutant is shown in SEQ ID No. 6. In the present invention, by the protein molecular modification, thermostability of the purified nitrilase LNIT5 is increased by up to 4.5 folds; and by utilizing recombinant E. coli containing the nitrilase mutant to hydrolyze 1-cyanocyclohexylacetonitrile at a high temperature (45° C.), product tolerance is increased, activity of NITS-L201F is increased by 20%, and the mutant NITLNIT5-AcN can completely hydrolyze 750 mM 1-cyanocyclohexylacetonitrile within 8 hours and achieve an doubled conversion rate.

Abstract: The present invention relates to polypeptide variants of porcine trypsin, to nucleic acid molecules encoding these variants, and to host cells comprising such nucleic acid molecules. It also relates to the use of these variants in methods for producing insulin. The invention further relates to the use of these variants as medicaments, as food ingredients, or as feed ingredients and to the use of these variants within a process of manufacturing a food ingredient or a feed ingredient.

Abstract: The invention provides CadA polypeptides with mutations that increase activity in alkaline pH compared to the wild-type lysine decarboxylase. The invention also provides methods of generating such mutant polypeptides, microorganisms genetically modified to overexpress the mutant polypeptides, and methods of generating such microorganism.

Abstract: Provided herein are phenylalanine ammonia-lyase (PAL) variants produced by prokaryotes, wherein such prokaryotic PAL variant has a greater phenylalanine-converting activity and/or a reduced immunogenicity as compared to a wild-type PAL. Further provided are compositions of prokaryotic PAL and biologically active fragments, mutants, variants or analogs thereof, as well as methods for the production, purification, formulation, and use of such compositions for industrial and therapeutic purposes, e.g., treating hyperphenylalaninemia, including phenylketonuria, and other disorders, including cancer.

Abstract: The application relates to an enzyme composition, a process for the preparation thereof and the use of the enzyme composition in enzymatic hydrolysis.

Abstract: A Trichoderma reesei mutant strain has a function of a polypeptide consisting of the amino acid sequence represented by SEQ ID NO: 2 is reduced. A method of producing a protein includes a step of cultivating the Tricho-derma reesei mutant strain, and a method of producing a cellulase includes a step of cultivating the Trichoderma reesei mutant strain.

Abstract: The present invention discloses a nitrilase mutant and its construction method and its application in the synthesis of chiral intermediate of pregabalin in the technical field of bioengineering. The present invention, respectively, takes turnip nitrilase BrNIT and arabidopsis nitrilase AtNIT as parent, using peptide fragment displacement method, displaces the sites 226-286 of BrNIT amino acid sequence and sites 225-285 of AtNIT amino acid sequence with sites 225-285 of Arabis alpina L. nitrilase AaNIT, obtain nitrilase mutants BrNIT225-285 and AtNIT225-285 of which the amino acid sequence is as shown in SEQ ID NO.1 or SEQ ID NO.3.

Abstract: A strain of Rhodococcus rhodochrous in which a gene coding at least part of a nitrile hydratase enzyme or any gene coding a protein involved in the transcription, translation or formation of at least part of the nitrile hydratase enzyme has been deactivated or rendered ineffective or a strain of Rhodococcus rhodochrous cultured under condition wherein the nitrile hydratase enzyme is been inhibited.

Abstract: The present disclosure relates to novel D-psicose 3-epimerase and a method for producing psicose using the same.

Abstract: Methods for evolving cells or strains towards improved methyltransferase activity, particularly SAM-dependent methyltransferase activity, as well as to cells and strains useful in such methods and methods of using the evolved cells in the production of methylated products.

Abstract: The present invention relates to novel subspecies of Bacillus. The novel subspecies can improve health and performance of production animals. In one embodiment the Bacillus subtilis subspecies has activity against Clostridium perfringens and/or E. coli. The invention further relates to compositions comprising one or more strains of the Bacillus subtilis subspecies and to use of the strain(s) of the Bacillus subtilis subspecies in an animal feed.

Abstract: The present invention provides engineered galactose oxidase (GOase) enzymes, polypeptides having GOase activity, and polynucleotides encoding these enzymes, as well as vectors and host cells comprising these polynucleotides and polypeptides. Methods for producing GOase enzymes are also provided. The present invention further provides compositions comprising the GOase enzymes and methods of using the engineered GOase enzymes. The present invention finds particular use in the production of pharmaceutical and other compounds.