The present invention relates to methods and compositions for preventing incorporation of norleucine into proteins during recombinant protein production in bacteria. The present invention also provides microorganism host cells and nucleic acid molecules for use with the methods and compositions provided herein.

A method for producing an objective substance such as vanillin and vanillic acid is provided. An objective substance is produced from a carbon source or a precursor of the objective substance by using a microorganism that is able to produce the objective substance, which microorganism has been modified so that the activity of an enzyme involved in SAM cycle (SAM cycle enzyme) is increased.

The present invention relates to isolated polypeptides that are derived from wildtype Bacillus subtilis S-Adenosylmethionine (SAM) synthase or from a biologically active fragment thereof, wherein said isolated polypeptides comprise an amino acid sequence that, in relation to the amino acid sequence of said wildtype Bacillus subtilis SAM synthase or of the biologically active fragment thereof, comprises at least one amino acid substitution, selected from the group consisting of amino acid substitutions at positions I317 and I105. The present invention further relates to respective isolated nucleic acids, vectors, host cells, uses and methods for the production of SAM derivatives.

The present invention provides compositions and methods of use in investigations of the formation of multiprotein assemblies implicated in disease. Also provided are assays for screening candidate compounds of potential utility in preventing and/or treating such diseases by preventing the assembly of or disrupting the function of multiprotein assemblies.

Provided herein are microorganisms that include one or more heterologous nucleic acid selected from the group of a sequence encoding a 7-methylxanthosine synthase, a sequence encoding a theobromine synthase; and a sequence encoding a caffeine synthase, where the microorganism is capable of producing one or more purine alkaloid in a culture medium, when the microorganism is cultured under conditions sufficient to produce the one or more purine alkaloid. Also provided compositions and kits that include at least one of these microorganisms, and methods of producing one or more purine alkaloid that include culturing one of these microorganisms under conditions sufficient to produce the one or more purine alkaloid.

The present invention relates to a recombinant microorganism which is modified to be capable of producing diosmin and hesperidin and to the use thereof for producing diosmin and/or hesperidin.

Provided herein are methods, compounds, and compositions for reducing expression of MAT1a in a cell or individual. Such methods, compounds, and compositions are useful to treat, prevent, delay, or ameliorate a metabolic disease or disorder in an individual.

Provided are non-naturally occurring nucleic acids comprising a sequence encoding an enzyme or regulatory protein in tryptamine metabolism. Also provided are a recombinant microorganisms expressing the enzyme or regulatory protein. Methods of expressing the enzyme or regulatory protein are additionally provided.

The present invention relates to a biocatalytical method for manufacturing of homoeriodictyol dihydrochalcone and/or hesperetin dihydrochalcone by providing at least one first biocatalyst system for the hydroxylation of phloretin and/or its glycosides as well as at least one second biocatalyst for the methylation of 3-hydroxyphloretin. Further disclosed are microorganisms capable of producing such biocatalysts as well as sequences encoding the biocatalysts. Furthermore, the present invention relates to the use of a mixture obtained by a method as disclosed in the present invention and to specific compositions suitable as sweetness enhancers and/or flavouring agents.

The present invention relates to a secretagogue compound derived from oxalate degrading bacteria, for use in the treatment of an oxalate related disease and/or oxalate related imbalance in a subject, wherein the administration of the secretagogue results in a reduction of urinary oxalate and/or plasma oxalate in the subject. The invention further relates to a pharmaceutical composition comprising such a secretagogue compound, a method for treating a subject suffering from an oxalate related disease, and to a method for preparing a secretagogue.