The present invention relates to a cytochrome P450 enzyme comprising the amino acid sequence set forth in SEQ ID NO: 3, or a variant thereof having an amino acid sequence having at least 95% identity thereto and having CYP450 activity. The cytochrome P450 enzyme provided herein was isolated from Streptomyces eurythermus NRRL 2539 and has a wide substrate range and high activity, and may be used to oxidate organic compounds.

Processes are disclosed for photosynthetic cyanobacterial production of selected proteins and biochemicals within an evolving alkaliphilic microbial consortium.

The present invention generally relates to the microbiological industry, and specifically to the production of L-serine or L-serine derivatives using genetically modified bacteria. The present invention provides genetically modified microorganisms, such as bacteria, wherein the expression of genes encoding for enzymes involved in the degradation of L-serine is attenuated, such as by inactivation, which makes them particularly suitable for the production of L-serine at higher yield. The present invention also provides means by which the microorganism, and more particularly a bacterium, can be made tolerant towards higher concentrations of serine. The present invention also provides methods for the production of L-serine or L-serine derivative using such genetically modified microorganisms.

The invention relates to the cultivation of unicellular red algae (URA) for producing biomass for the production of products of interest, such as dry biomass or compounds or mixtures of compounds of interest extracted from the biomass produced, particularly food pigments or colouring agents. The invention more particularly relates to the industrial production of said biomass, which must satisfy an economic equilibrium of profitability, with both an increase in productivity (quantity of biomass and of compounds of interest in the biomass) and an economically acceptable production cost.

The instant disclosure is in the field of biosciences, more particularly towards molecular and industrial biotechnology. The present disclosure relates to recombinant methanotrophic bacteria capable of synthesizing indigo from methane, a method of developing said recombinant methanotrophic bacteria, and a method of indigo biosynthesis by the recombinant methanotrophic bacteria in presence of a methane source.

The present disclosure provides engineered carboxyesterase enzymes that have the ability to catalyze amide bond formation. Also provided are polynucleotides encoding the carboxyesterase enzymes, host cells capable of expressing the engineered carboxyesterase enzymes, and methods of using the engineered carboxyesterase enzymes to make commercially valuable amides. Also provided are amides that are made using the engineered carboxyesterase enzymes.

The present disclosure includes refactored thaxtomin biosynthetic gene clusters including thaxtomin modules including one or more thaxtomin genes such that the expression of the refactored thaxtomin biosynthetic gene cluster produces at least one thaxtomin compound in the absence of thaxtomin-inducing conditions. Also included are genetically engineered Streptomyces bacterium from a non-pathogenic Streptomyces strain comprising an exogenous, refactored thaxtomin biosynthetic gene cluster of the present disclosure, such that the expression of the refactored thaxtomin biosynthetic gene cluster provides the genetically engineered Streptomyces bacterium with the ability to produce at least one thaxtomin compound in the absence of thaxtomin-inducing conditions. The present disclosure also includes methods of producing thaxtomin compounds, analogs, or intermediate with the refactored thaxtomin biosynthetic gene clusters and genetically engineered bacteria of the present disclosure.

The present invention relates to lactic acid bacterial strains which are capable of producing or inducing the production of melatonin, for use in the production of melatonin in a subject. Preferred strains for such uses are capable of producing or inducing the production of adenosine. Therapeutic uses of such strains include the treatment or prevention of diseases associated with melatonin deficiency, for example infantile colic. Novel strains are also provided.

A method for catalytically converting a dihydrotetrazine 1 into a tetrazine 2, wherein the dihydrotetrazine 1 comprises a first R group and a second R group, wherein the first R group is a substituted or unsubstituted aryl, heteroaryl, alkyl, alkenyl, alkynyl, carbonyl, or heteroatom-containing group, and the second R group is selected from the group consisting of H and substituted or unsubstituted aryl, heteroaryl, alkyl, alkenyl, alkynyl, carbonyl, and heteroatom-containing groups; ##STR00001##
wherein the method comprises (a) providing the dihydrotetrazine 1 in a reaction medium, and (b) adding an enzyme as a catalyst and an oxidant to the reaction medium, whereby the dihydrotetrazine 1 is converted to the tetrazine 2.

The invention provides compounds which are prodrugs of a JAK inhibitor agent for the targeted delivery of the JAK inhibitor to the gastrointestinal tract of a mammal. The invention also provides pharmaceutical compositions comprising the compounds, methods of using the compounds to treat gastrointestinal inflammatory diseases, and processes and intermediates useful for preparing the compounds.