The present invention provides production of hydroxylated fatty acid by a hydration reaction using a novel enzyme derived from Lactobacillus and using fatty acid as a substrate, and further, a production method of oxo fatty acid by an enzyme reaction or chemical oxidation reaction using the hydroxylated fatty acid as a substrate. In addition, a valuable novel rare fatty acid obtained by such production method is also provided.

Described herein are methods of preparing cutin-derived monomers, oligomers, or combinations thereof from cutin-containing plant matter. The methods can include heating the cutin-derived plant matter in a solvent at elevated temperature and pressure. In some preferred embodiments, the methods can be carried out without the use of additional acidic or basic species.

Described herein are methods of preparing cutin-derived monomers, oligomers, or combinations thereof from cutin-containing plant matter. The methods can include heating the cutin-derived plant matter in a solvent at elevated temperature and pressure. In some preferred embodiments, the methods can be carried out without the use of additional acidic or basic species.

12(S)-hydroxyeicosatrienoic acid (12(S)-HETrE) compounds and compositions comprising the same are disclosed. Methods of using the compounds in the prevention and treatment of thrombosis and thrombotic disorders are also disclosed.

12(S)-hydroxyeicosatrienoic acid (12(S)-HETrE) compounds and compositions comprising the same are disclosed. Methods of using the compounds in the prevention and treatment of thrombosis and thrombotic disorders are also disclosed.

Provided herein are reactor systems and processes for producing organic acids directly from beta-lactones. Such reactor systems and processes involve the use of a heterogeneous catalyst, such as a zeolite at vapor phase conditions. The reactor systems and processes may use a fixed bed, moving bed or fluidized contacting zone as reactor configurations.

Provided herein are reactor systems and processes for producing organic acids directly from beta-lactones. Such reactor systems and processes involve the use of a heterogeneous catalyst, such as a zeolite at vapor phase conditions. The reactor systems and processes may use a fixed bed, moving bed or fluidized contacting zone as reactor configurations.

The present invention provides production of hydroxylated fatty acid by a hydration reaction using a novel enzyme derived from Lactobacillus and using fatty acid as a substrate, and further, a production method of oxo fatty acid by an enzyme reaction or chemical oxidation reaction using the hydroxylated fatty acid as a substrate. In addition, a valuable novel rare fatty acid obtained by such production method is also provided.

The present invention provides production of hydroxylated fatty acid by a hydration reaction using a novel enzyme derived from Lactobacillus and using fatty acid as a substrate, and further, a production method of oxo fatty acid by an enzyme reaction or chemical oxidation reaction using the hydroxylated fatty acid as a substrate. In addition, a valuable novel rare fatty acid obtained by such production method is also provided.

Preparation of 2,5,6-trihydroxy-3-hexenoic acid and 2,5-dihydroxy-3-pentenoic acid and esters thereof from C6 and C5 sugars in the presence of a Lewis Acid material, wherein the yield of the 2,5,6-trihydroxy-3-hexenoic acid or 2,5-dihydroxy-3-pentenoic acid or esters thereof exceeds 15%. The process including the steps of contacting a saccharide composition including one or more C6 and/or C5 saccharide units with a Lewis Acid material; and recovering 2,5,6-trihydroxy-3-hexenoic acid and/or 2,5-dihydroxy-3-pentenoic acid or the esters thereof.