The presently claimed invention relates to a method for protecting plants or plant protecting material from attack or infestation by insects, fungi, arachnids, nematodes and unwanted weeds by treatment of root/shoot/seeds/soil by the use of active compounds in combina-tion with enzymes.

The presently claimed invention relates to a method for protecting plants or plant protecting material from attack or infestation by insects, fungi, arachnids, nematodes and unwanted weeds by treatment of root/shoot/seeds/soil by the use of active compounds in combina-tion with enzymes.

The present application relates to a nucleic acid molecule comprising a first nucleic acid sequence comprising at least a portion of a 5′ untranslated region (5′ UTR) of a carboxylesterase gene and a second nucleic acid sequence encoding a protein of interest, where the second nucleic acid sequence is heterologous to and operatively coupled to the first nucleic acid sequence. Also disclosed are methods of expressing a protein of interest in a target cell, methods of treating subject for cardiac ischemia or hepatic ischemia, and methods of identifying a nucleic acid sequence capable of selectively enhancing translation of a heterologous protein of interest in a target cell.

The present application relates to a nucleic acid molecule comprising a first nucleic acid sequence comprising at least a portion of a 5′ untranslated region (5′ UTR) of a carboxylesterase gene and a second nucleic acid sequence encoding a protein of interest, where the second nucleic acid sequence is heterologous to and operatively coupled to the first nucleic acid sequence. Also disclosed are methods of expressing a protein of interest in a target cell, methods of treating subject for cardiac ischemia or hepatic ischemia, and methods of identifying a nucleic acid sequence capable of selectively enhancing translation of a heterologous protein of interest in a target cell.

The invention is directed to novel probiotic bacterial strains that colonize animal tissues, and in particular the gastrointestinal (GI) tract of aquatic animals grown in aquaculture environments and may further be engineered to express and deliver interfering RNA molecules configured to downregulate expression of one or more pathogen, or endogenous host genes.

A process can be used for enzymatic preparation of sorbitan carboxylates. Sorbitan carboxylates are obtainable by this process.

A process can be used for enzymatic preparation of sorbitan carboxylates. Sorbitan carboxylates are obtainable by this process.

The present invention relates to the present invention provides novel recombinant protein produced from cholinesterase gene derived from Pseudomonas aeruginosa and the composition comprising the same for treating or preventing a neurological disease.

The present invention relates to the present invention provides novel recombinant protein produced from cholinesterase gene derived from Pseudomonas aeruginosa and the composition comprising the same for treating or preventing a neurological disease.

Provided are methods or processes for producing ferulic acid from a plant material, for example, a rice bran or its derivatives. Provided are methods comprising an ion swapping and solvent extraction process followed by a chromatographic separation operations that are coupled into a process which functions to recover a fraction rich in gamma-oryzanol, thus enabling the subsequent production of a high purity ferulic acid. Provided are methods comprising an ion swapping and solvent extraction process followed by a process which functions to recover a fraction rich in gamma-oryzanol, or a mixture of ferulic acid esters of phytosterols and triterpenoids, optionally comprising cycloartenyl ferulate, 24-methylenecycloartanyl ferulate, and/or campesteryl ferulate, to enable the production of a high purity ferulic acid. Provided are methods comprising a saponification and solvent extraction process followed by recovering a fraction rich in gamma-oryzanol to enable the production of a high purity ferulic acid.