Provided are a microorganism of the genus Corynebacterium which produces a purine nucleotide, and a method of producing a purine nucleotide using the microorganism.

An amino acid sequence of the transaminase mutant is an amino acid sequence obtained by a mutation of an amino acid sequence is shown in SEQ ID NO: 1. The mutation occurred at least one of the following mutation sites: G17V, L36P, Q40H, G69Y, H70T, L73A, V77G, V77S, V77T, A78I, Y130M, Y130V, Y130T, N132I, N132T, K141S, K142S, K142T, R143P, G144F, G144W, G144Y, E145D, E145S, E145G, K146R, L148A, L148I and the like.

The present disclosure is directed to devices, instruments, and methods, including automated methods, for enhanced production and efficient screening of biosynthesized antibiotics. More particularly, the present disclosure provides for accelerated biosynthesis and screening on a single-cell scale.

The present invention provides a nitrilase mutant and application thereof in the synthesis of 1-cyanocyclohexyl acetic acid, the nitrilase mutant is obtained by mutating one or two of the amino acids at position 180 and 205 of the amino acid sequence shown in SEQ ID No. 2. In the present invention, by semi-rational design and protein molecular modification, the specific enzyme activity of the nitrilase double mutant AcN-G180D/A205C was increased by up to 1.6 folds, and the conversion rate>99%. And the reaction time was shortened to a quarter of the original using the recombinant Escherichia coli containing the nitrilase mutant to hydrolyze 1-cyanocyclohexylacetonitrile at high temperature (50° C.). 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.

Provided herein are, inter alia, methods of forming chemically reactive amino acids and methods of using same.

Among other things, the present disclosure provides biosynthesis polypeptides, methods, and non-naturally occurring microbial organisms for preparing various compounds such as 1,5-pentanediol, adipic acid, 1,6-hexanediol, 6-hydroxy hexanoic acid, and 2-keto carboxylic acids.

Provided are keratin BD-4, an encoding nucleic acid molecule thereof, an expression vector, a host cell, and a pharmaceutical composition containing the keratin. The keratin BD-4 can be used for preparing drugs having antipyretic and analgesic, antitussive and expectorant, and antiepileptic effects.

The present invention is directed to a method for manufacturing an enzyme preparation, comprising at least one recombinant Actinoallomurus endopeptidase with glutenase activity, at high yields and suitable for human use. The invention is further directed to a recombinant expression vector for expressing the recombinant endopeptidase(s) of interest, and to a S. lividans host cell comprising said vector. Moreover, the present invention is directed the enzyme preparation obtained by said method, to formulations of the same and to clinical uses thereof.

A bacterial-mediated gene-editing delivery platform that uses invasive, non-pathogenic bacteria to deliver gene-editing cargo, including CRISPR/Cas systems, to eukaryotic cells. The bacteria contain a prokaryotic expression cassette encoding the gene-editing cargo.

Provided are modified microorganisms, such as live recombinant commensal bacteria, that express a heterologous antigen, and methods of using the modified microorganisms to induce an antigen-specific immune response to the heterologous antigen. The modified microorganism can be used to induce a regulatory T cell immune response to the heterologous antigen to treat an autoimmune disease in a subject in need thereof, or can be used to induce an effector T cell immune response to the heterologous antigen to treat a proliferative disease in a subject in need thereof.