Methods and compositions for producing fatty acid derivatives, for example, fatty esters, and commercial fuel compositions comprising fatty acid derivatives are described.

Provided herein are methods of measuring acyl-CoA dehydrogenase activity in a biological sample in a multiwell microplate setting.

The invention relates to an engineered eukaryotic microorganism into which a gene encoding an acyl-CoA dehydrogenase is introduced and a method for producing methacrylic acid esters such as MMA and MMA-CoA and precursors thereof using the microorganism.

The invention relates to recombinant microorganisms that have been engineered to produce various chemicals using genes that have been repurposed to create a reverse beta oxidation pathway. Generally speaking, the beta oxidation cycle is expressed and driven in reverse by modifying various regulation points for as many cycles as needed, and then the CoA thioester intermediates are converted to useful products by the action of termination enzymes.

Provided are biosynthetic processes for producing sterol derivatives, and to non-naturally occurring organisms capable of producing sterol derivatives. More specifically, genetically modified non-naturally occurring organisms for producing KCEA, KCDA, and related compounds, from cholesterol, ?-sitosterol, campesterol and their analogs, are provided.

Methods and compositions for producing fatty acid derivatives, for example, fatty esters, and commercial fuel compositions comprising fatty acid derivatives are described.

Methods and compositions for producing fatty acid derivatives, for example, fatty esters, and commercial fuel compositions comprising fatty acid derivatives are described.

To provide a method for directly and efficiently producing methacrylic acid in a single step from renewable raw materials and/or biomass arising from the utilization of the renewable raw materials. Further provided is a method for producing methacrylic acid using microbes having the ability to produce methacrylic acid, from renewable raw materials and/or biomass arising from the utilization of the renewable raw materials, as a carbon source and/or energy source. The method for producing methacrylic acid enables methacrylic acid to be safely and easily produced from biomass, without using petroleum-derived raw materials, by utilizing microbes having the ability to produce methacrylic acid.

Described herein are biological devices and extracts useful for detecting Alzheimer's disease and/or concussions. The biological devices include microbial cells transformed with a DNA construct containing genes for producing -amyloid precursor protein, microtubule associated protein tau, adipose triglyceride lipase, acyl-CoA dehydrogenase, and O-linked N-acetylglucosamine transferase. In some instances, the biological devices also include a gene for enhanced green fluorescent protein. Methods for using the devices to diagnose or detect Alzheimer's disease and/or concussions are also provided herein.

The invention relates to an engineered eukaryotic microorganism into which a gene encoding an acyl-CoA dehydrogenase is introduced and a method for producing methacrylic acid esters such as MMA and MMA-CoA and precursors thereof using the microorganism.