Modified bacterial strains are provided. The strains can generate a desired product such as pyruvate and products derived from pyruvate. Methods of generating pyruvate and products derived from pyruvate are also provided. The modified bacterial strains have at least one mutation in a gene coding for proteins in a pyruvate dehydrogenase complex such that the mutation allows a cell to accumulate pyruvate and/or products derived from pyruvate.

Provided is a method of producing a target substance from a starting substance via an NADH-accumulating reaction pathway, the method comprising: incubating bacteria under an aerobic condition; and subsequently incubating the bacteria under an anaerobic condition in the presence of the starting substance and nitrate ion to produce the target substance.

The present disclosure provides methods of modulating the flux of carbon through the monoethylene glycol (MEG) biosynthesis pathway and one or more C3 compound biosynthesis pathways by expressing enzymes that are essential for improving C3 compounds and modulating other genetic aspects of MEG and C3 compound biosynthesis. The disclosure is further drawn to modified microbes comprising the disrupted sequences and overexpressed sequences, and compositions thereof.

The present invention relates to a recombinant microorganism having the ability to produce poly(lactate-co-glycolate) and its copolymers from xylose, and more particularly to a recombinant microorganism having the ability to produce poly(lactate-co-glycolate) and its copolymers without having to supply a glycolate precursor from an external source, and a method of producing a poly(lactate-co-glycolate) copolymers using the same.

The present invention provides engineered 3O-kinase polypeptides useful for construction of materials used in template-independent polynucleotide synthesis, as well as compositions and methods of utilizing these engineered polypeptides. The present disclosure also describes one-pot methods for conversion of a natural or modified nucleoside to a nucleoside tetraphosphate or NQP.

Geranyl pyrophosphate (GPP) is a key intermediate molecule in the bioproduction of thousands of natural products. Currently, natural products are either cultivated from plants, synthesized via complex chemical synthesis strategies, or through cell-based factories also known as biofoundries. However, in order to replicate the process in a cell free environment, numerous enzymes and cofactors must be utilized making this approach costly and unviable. In order to make this process viable, a new approach was needed that uses fewer enzymes and co-factors. As described herein, the present invention demonstrates that it is possible to create GPP from glycerol through a short and concise biosynthetic pathway outside of the cell.

A system for electrochemically detecting AST and ALT includes a first sampler for producing pyruvate from ALT and a second sampler for producing pyruvate from AST. The system further includes an electrochemical test strip for receiving processed samples from the first and second samplers, the processed samples containing pyruvate. The system further includes a meter for reading the electrochemical test strip and indicating an amount of AST and ALT in the sample.

The present invention relates to a recombinant microorganism having the ability to produce poly(lactate-co-glycolate) and its copolymers from xylose, and more particularly to a recombinant microorganism having the ability to produce poly(lactate-co-glycolate) and its copolymers without having to supply a glycolate precursor from an external source, and a method of producing a poly(lactate-co-glycolate) copolymers using the same.

The present disclosure relates to sensing composition comprising a pyruvate-responsive enzyme and thiamine pyrophosphate (TPP). In particular, the sensing composition can comprise a pyruvate-responsive enzyme (e.g., pyruvate oxidase), TPP, optionally flavin adenine dinucleotide (FAD), a stabilizing agent (e.g., an albumin), and a redox mediator. The sensing composition forms a sensing layer on a working electrode to form a sensing electrode. The sensing electrode, along with a circuit, can form part of a system for sensing pyruvate. The present disclosure is further related to a method for sensing pyruvate, which includes accumulating charge derived from pyruvate reacting with the sensing composition for a set period of time and then measuring a signal from the accumulated charge.

The present invention relates to a method for constructing a recombinant bacterium with high production of ?-elemene and germacrene A. Firstly, ?-elemene and germacrene A are synthesized from scratch through the screening of germacrene A synthase and the overexpression of the mevalonate pathway; then, the availability of acetyl-CoA, pyruvate, and glyceraldehyde-3-phosphate in the farnesyl diphosphate pathway is ensured by deleting competing pathways in the central carbon metabolism; next, the present invention uses lycopene color as a high-throughput screening method and obtains an optimized NSY305N through error-prone PCR. Finally, in shake flasks, strain ?-EL-4 constructed through key pathway enzymes, efflux engineering, and translation engineering produced 1161.09 mg/L of ?-elemene and 852.36 mg/L of germacrene A, which is the highest reported yield at shake flask level. In 4-L fed-batch fermentation, the production of ?-elemene and germacrene A reached 3.52 g/L and 2.13 g/L, respectively.