The present invention relates to processes for the formation of furandicarboxylic acid (FDCA), in particular 2,5-furandicarboxylic acid (2,5-FDCA), and mono- and diester derivatives thereof, via a multistep biocatalytic oxidation reaction of 5-hydroxymethylfurfural (HMF) using, for example, an enzyme selected from the group consisting of xanthine oxidoreductase (XOR), galactose oxidase variant M.sub.3-5, aldehyde dehydrogenase, and/or ketoreductase. The invention also relates to copolymers that comprise the furandicarboxylic acid monomers and derivatives thereof, processes for the formation of the copolymers and uses for the copolymers.

The present invention relates to a recombinant yeast having a reduced pyruvate decarboxylase activity, in the genome of which has been inserted: one or more nucleic acids encoding an acetolactate synthase or ALS, one or more nucleic acids en coding an acetolactate decarboxylase or ALD, andone or more copies of a nucleic acids encoding a NADH oxidase or NOXE.

The invention generally relates to plant cells and plants modified to increase resistance to necrotrophs or drought and methods of selecting and using the same. More specifically, the invention relates in part to plant cells and/or plants modified to eliminate or reduce as compared to control plants cell the NADPH oxidase activity or expression of certain respiratory burst oxidase homolog (RBOH) proteins and methods of selecting for and using the same.

The present invention relates to compositions comprising a polymeric matrix or a gel containing functional enzymes capable of re-creating under culture conditions the cell microenvironment existing in vivo. The present invention also relates to devices for cell cultures comprising such compositions, in particular hydrogel and the use thereof to control the chemical microenvironment of a cell culture or mimic physiological or pathological conditions of the in vivo cells. The compositions and the devices described herein could be also used in vitro for evaluating the therapeutic effect of a compound on a determined cell line or on primary cells.

The invention encompasses water-forming NADH and NADPH oxidases and the use of these enzymes to treat mammalian diseases or conditions associated with an elevated NADH/NAD+ ratio or NADPH/NADP+ ratio. Such pathologies include disorders caused by one or more defects in the mitochondrial respiratory chain, glucose metabolism disorders, cancers associated with reductive stress, and aging. The invention also provides a research tool for investigating the effect of exogenous water-forming NADH or NADPH oxidases on the metabolism of a mammalian cell, such as a human cell, and for elucidating the role of respiratory chain proteins in mitochondrial disorders.

The present invention relates to optimized aptamers and methods of using these aptamers.

Provided herein are compositions, methods, and devices for the treatment and prevention of atrial fibrillation (AF) using gene therapy techniques. In particular, oxidative stress (OS) and parasympathetic nervous system signaling are inhibited to prevent and/or reverse the electrical remodeling that underlies AF.

Provided herein are compositions and methods for uncoupling the yield and productivity of an isoprenoid compound produced in a host cell. In some embodiments, the yield and productivity are uncoupled by genetically modifying the host cell to reduce flux through the citric acid cycle (TCA). In other embodiments, the yield and productivity are uncoupled by reducing the levels of ATP in the host cell.

Provided are various embodiments relating to compositions and methods for treating vascular disease, including core NOX1 promoters and variants thereof for regulating expression of transgenes in response to vascular pathology and allowing for increased transgene loading capacity. Also provided are variant FOXP polypeptides having a zinc finger and leucine zipper region of a different FOXP polypeptide. Further provided are vectors comprising the core NOX1 promoters and/or a coding sequence for variant FOXP polypeptides described herein and optionally coding sequence(s) for one or more additional therapeutic polypeptide(s), such as IL10, for treating inflammation-associated diseases, such as vascular disease. Also provided is a screening model for testing therapeutic agents capable of treating established and ongoing atherosclerotic pathology.

Provided herein are methods, antisense agents, specific inhibitors, and compositions useful for reducing expression or activity of NADPH oxidase 4 (hereinafter referred to as NOX4) in a subject. Also, provided herein are methods, antisense agents, specific inhibitors, and compositions that can be useful in treating NOX4-related diseases or conditions in a subject. Such methods, antisense agents, specific inhibitors, and compositions can be useful, for example, to treat a pulmonary disease in a subject.