The present disclosure relates to, inter alia, a weed control method. In one example, a method comprises applying to the locus a weed controlling amount of a pesticide composition comprising a FatA acyl-ACP thioesterase-inhibiting herbicide, wherein the crop plants are modified such that they comprise a FatA acyl-ACP thioesterase which provides the crop plant with tolerance against the FatA acyl-ACP thioesterase-inhibiting herbicide. Recombinant polynucleotides and suitable for use in the methods, and edited FatA acyl-ACP thioesterases are also disclosed.

The disclosure relates to omega-hydroxylase-related fusion polypeptides that result in improved omega-hydroxylated fatty acid derivative production when expressed in recombinant host cells. The disclosure further relates to microorganisms for expressing the omega-hydroxylase-related fusion polypeptides for the production of omega-hydroxylated fatty acid derivatives.

Soybean oil compositions with unique fatty acid profiles are disclosed. These oils can be derived by the suppression of endogenous soybean FAD2 and FAD3 genes and the expression of a stearoyl acyl ACP thioesterase. Soybean plants and seeds comprising these oils are also disclosed.

Disclosed herein are methods of manufacturing renewable chemicals through the manufacture of novel triglyceride oils followed by chemical modification of the oils. Methods such as transesterification, hydrogenation, hydrocracking, deoxygenation, isomerization, interesterification, hydroxylation, hydrolysis and saponification are disclosed. Novel oils containing fatty acid chain lengths of C8, C10, C12 or C14 are also disclosed and are useful as feedstocks in the methods of the invention.

The disclosure relates to a recombinant microorganism engineered to express an enzyme which catalyzes the conversion of a primary amine and an acyl thioester to a fatty amide. The disclosure further encompasses a method of producing a fatty amide by culturing the recombinant microorganism in the presence of a carbon source.

The invention generally relates to the production of a fatty alcohol composition from recombinant microbial cells. The fatty alcohols are produced by expressing a gene encoding a heterologous fatty alcohol forming acyl-CoA reductase (FAR); a gene encoding a heterologous thioesterase (TE) gene and a gene encoding an acyl-CoA synthetase (ACS).

The disclosure relates to fatty diols and recombinant microorganisms for producing them. More particularly, the disclosure relates to recombinant microorganisms engineered to produce fatty diols via fermentation. Further encompassed is a process that uses the microorganisms to produce fatty diols from a simple carbon source.

Described herein are genetically-modified microorganisms for producing medium chain lauric acid and/or dodecanedioic acid and methods of using the microorganisms. The microorganisms contain a nucleic acid encoding an Umbellularia californica lauroyl ACP-thioesterase (BTE) operably linked to a promoter.

Described herein are genetically-modified microorganisms for producing long-chain dicarboxylic acids and methods of using the microorganisms. The microorganisms contain a first nucleic acid encoding an Umbellularia californica lauroyl ACP-thioesterase (BTE) operably linked to a promoter or a second nucleic acid encoding a Cocos nucifera lauroyl ACP-thioesterase (FatB3) operably linked to a promoter.

The disclosure relates to a recombinant microorganism engineered to express an enzyme which catalyzes the conversion of a primary amine and an acyl thioester to a fatty amide. The disclosure further encompasses a method of producing a fatty amide by culturing the recombinant microorganism in the presence of a carbon source.