Certain embodiments provide a method for preparing a biochemical product (e.g., phenol, catechol, or muconic acid, or a salt thereof). For example, such methods include contacting a recombinant host having two or more recombinant pathways with a fermentable carbon source and growing the recombinant cell for a time sufficient to synthesize the product. In certain embodiments, each recombinant pathway: 1) is capable of producing the same final biochemical product; 2) comprises at least one gene encoding a polypeptide; 3) is derived from a different endogenous metabolite as its immediate precursor; and 4) converges to the same final product or the same intermediate metabolite.

The present invention is related to a novel enzymatic process for production of retinoids via a multi-step process, which process includes the use of heterologous enzymes having activity in a carotene-producing host cell, particularly wherein such process results in high percentage of retinoids, in trans-isoform.

The present invention is related to a novel enzymatic process for production of retinoids via a multi-step process, which process includes the use of heterologous enzymes having activity in a carotene-producing host cell, particularly wherein such process results in high percentage of retinoids, in trans-isoform.

The present invention relates to a method for separating biomass from a solution comprising bi-omass and at least one aroma compound. comprising providing the solution comprising bio-mass and aroma compounds. lowering the pH value of the solution below 7 by adding at least one acid to the solution comprising biomass and the at least one aroma compound. adding an adsorbing agent to the solution comprising biomass and aroma compounds. and carrying out first membrane filtration so as to separate the biomass from the solution comprising the at least one aroma compound.

Methods and compositions for the oxidation of short alkanes by engineered microorganisms expressing enzymes are described, along with methods of use.

Methods and compositions for the oxidation of short alkanes by engineered microorganisms expressing enzymes are described, along with methods of use.

The invention discloses an alcohol dehydrogenase mutant and use thereof. The alcohol dehydrogenase mutant of the present invention has high thermal stability and enables high catalytic efficiency and high conversion rate (i.e. space time yield) in the asymmetric reduction of prochiral diaryl ketones to produce chiral diaryl alcohols. Therefore, the alcohol dehydrogenase mutant of the present invention has extremely high prospect of application in the production of chiral diaryl alcohols, such as (S)-(4-chlorophenyl)-(pyridin-2-yl)-methanol, (R)-(4-chlorophenyl)-(pyridin-2-yl)-methanol.

The invention discloses an alcohol dehydrogenase mutant and use thereof. The alcohol dehydrogenase mutant of the present invention has high thermal stability and enables high catalytic efficiency and high conversion rate (i.e. space time yield) in the asymmetric reduction of prochiral diaryl ketones to produce chiral diaryl alcohols. Therefore, the alcohol dehydrogenase mutant of the present invention has extremely high prospect of application in the production of chiral diaryl alcohols, such as (S)-(4-chlorophenyl)-(pyridin-2-yl)-methanol, (R)-(4-chlorophenyl)-(pyridin-2-yl)-methanol.

The invention relates to a cannabinoid concentrate and isolate with a high content of the acidic forms of the cannabinoids, method of obtaining the same and use thereof comprising providing a lipid extract using i.a. paraffin and subjecting it to specific vacuum distillation.

Disclosed are a ketoreductase mutant and a method for producing a chiral alcohol. The ketoreductase mutant has an amino acid sequence obtained by the mutation of the amino acid sequence shown in SEQ ID NO: 1, and the mutation includes a mutation siteK200H. In the present disclosure, the mutant obtained by mutation takes a ketone compound as a raw material, the chiral alcohol may be efficiently produced by stereoselective reduction, and the stability is greatly improved, which is suitable for popularization and application to the industrial production of the chiral alcohol.