The present disclosure describes the engineering of microbial cells for fermentative production of L-homocysteine and provides novel engineered microbial cells and cultures, as well as related L-homocysteine production methods.

The present disclosure provides compositions and methods for rapid production of chemicals in genetically engineered microorganisms in a large scale. Also provided herein is a high-throughput metabolic engineering platform enabling the rapid optimization of microbial production strains. The platform, which bridges a gap between current in vivo and in vitro bio-production approaches, relies on dynamic minimization of the active metabolic network.

Antibodies that include a sulfatase motif-containing tag in a constant region of an immunoglobulin (Ig) light chain polypeptide are disclosed. The sulfatase motif can be converted by a formylglycine-generating enzyme (FGE) to produce a formylglycine (fGly)-modified Ig light chain polypeptide. An fGly-modified Ig light chain polypeptide of the antibody can be covalently and site-specifically bound to a moiety of interest to provide an antibody conjugate. The disclosure also encompasses methods of production of such tagged Ig light chain polypeptides, fGly-modified Ig light chain polypeptides, and antibody conjugates, as well as methods of use of same.

Provided herein are host cells or host cellular expression systems that express a membrane protein. Also, methods are provided that use such host cells or host cellular expression systems to produce higher amounts of the membrane proteins. Further, the cells or cellular systems can be used as tools for the functional characterization of membrane proteins, as well as for screening and drug discovery efforts targeting membrane proteins.

Method of using sulfide: quinone oxidoreductase (SQR) for persulfide-mediated generation of mitochondrial membrane potential and energy production, and method of using SQR for catalyzing proton and electron transfer from hydropersulfides to a mitochondrial electron transport chain.

The invention describes new peptides containing epitopes recognized by CD4+ natural killer T (NKT) cells for increasing activity for use in infectious diseases, autoimmune diseases, immune reaction to administration of allofactors, allergic diseases, therapy of tumors, prevention of graft rejection and prevention of immunization against viral proteins used in gene therapy or gene vaccination.

The invention is directed to methods and compositions for the expression and purification of products such as peptides and proteins in microorganisms. In particular, pre-products are expressed recombinantly, wherein the cytoplasm of the microorganism alters the expressed pre-products to produce products in an active/final or otherwise desirable form. Alterations associated with expression of a desired recombinant product include shifting of the redox state of the cytoplasm to allow proper protein folding, site-directed cleavage of pre-proteins to activate the protein, site-directed cleavage of an unwanted methionine from the N terminus of the protein, and/or one or more ligations to form desired protein configurations, all within the same cell.

This invention is intended to improve glutathione productivity by fermentation using microorganisms. This invention relates to a microbial strain capable of overexpression of γ-glutamylcysteine, bis-γ-glutamylcystine, γ-glutamylcystine, reduced glutathione, and/or oxidized glutathione in which the expression level of a gene encoding serine-O-acetyltransferase (EC:2.3.1.30) is enhanced and a method involving the use of such microbial strain.

A method of bonding together surfaces of two or more elements. The method includes the steps of providing two or more elements, applying an adhesive to one or more of the surfaces to be bonded together before, during or after contacting the surfaces to be bonded together with each other, and curing the adhesive, wherein the adhesive comprises at least one hydrocolloid.

The present invention relates to biomarkers and methods of using the same. Specifically, the present invention relates to biomarkers for nonalcoholic fatty liver disease and related disease phenotypes and methods of using the same.