Controlled coenzyme Q.sub.10 (CoQ.sub.10) fermentation production processes and methods for controlling the CoQ.sub.10 fermentation production processes are provided in the present disclosure. The processes may include growing a microbial culture of bacteria by providing a carbon source and an oxygen source for a predetermined period of time, thereby producing CoQ.sub.10-containing bacteria, carbon dioxide, and lactate in the bacterial culture. During various stages of the production process, the concentration of carbon dioxide may be maintained at predetermined levels, respectively. Alternatively or additionally, during various stages of the production process, the concentration of lactate may be maintained at predetermined levels, respectively.

Controlled coenzyme Q.sub.10 (CoQ.sub.10) fermentation production processes and methods for controlling the CoQ.sub.10 fermentation production processes are provided in the present disclosure. The processes may include growing a microbial culture of bacteria by providing a carbon source and an oxygen source for a predetermined period of time, thereby producing CoQ.sub.10-containing bacteria, carbon dioxide, and lactate in the bacterial culture. During various stages of the production process, the concentration of carbon dioxide may be maintained at predetermined levels, respectively. Alternatively or additionally, during various stages of the production process, the concentration of lactate may be maintained at predetermined levels, respectively.

A polypeptide includes, in the amino acid sequence of SEQ ID NO: 1 or a similar sequence, at least one specific amino acid substitution on at least one of the 14th, 37th, 209th, 293rd, and 319th amino acid residues from the N-terminal of the amino acid sequence of SEQ ID NO: 1. A polynucleotide, an expression cassette, a vector, and a transformant include a base sequence encoding the amino acid sequence of the polypeptide. A method of producing the polypeptide and a method of producing 2-deoxy-scyllo-inosose are also provided.

A polypeptide includes, in the amino acid sequence of SEQ ID NO: 1 or a similar sequence, at least one specific amino acid substitution on at least one of the 14th, 37th, 209th, 293rd, and 319th amino acid residues from the N-terminal of the amino acid sequence of SEQ ID NO: 1. A polynucleotide, an expression cassette, a vector, and a transformant include a base sequence encoding the amino acid sequence of the polypeptide. A method of producing the polypeptide and a method of producing 2-deoxy-scyllo-inosose are also provided.

A process for producing rotundone from α-guaiene, in particular by oxidation of the C(3) position, wherein the α-guaiene is produced from a precursor by a sesquiterpene synthase. The sesquiterpene synthase is produced in a microorganism.

Provided are novel flavone hydroxylases, a microorganism for synthesizing flavone C-glycoside compounds, and use thereof. The present inventor obtains novel flavones hydroxylates PhF2H and PhF3′H by cloning, which belong to cytochrome P450 hydroxylates and have the function of hydroxylating specific positions of compounds. Further, the present inventor, by modifying the enzymes and combining a C-glycoside glycosyltransferase and assembly of a synthesis pathway of a flavone precursor, efficiently synthesizes flavone C-glycoside compounds such as oriention, isooriention, vitexin and isovitexin, and related intermediates such as eriodictyol and 2-hydroxynaringenin in the synthesis pathway thereof in an artificial recombinant expression system.

Provided are novel flavone hydroxylases, a microorganism for synthesizing flavone C-glycoside compounds, and use thereof. The present inventor obtains novel flavones hydroxylates PhF2H and PhF3′H by cloning, which belong to cytochrome P450 hydroxylates and have the function of hydroxylating specific positions of compounds. Further, the present inventor, by modifying the enzymes and combining a C-glycoside glycosyltransferase and assembly of a synthesis pathway of a flavone precursor, efficiently synthesizes flavone C-glycoside compounds such as oriention, isooriention, vitexin and isovitexin, and related intermediates such as eriodictyol and 2-hydroxynaringenin in the synthesis pathway thereof in an artificial recombinant expression system.

A process for producing rotundone from α-guaiene, in particular by oxidation of the C(3) position, wherein the α-guaiene is produced from a precursor by a sesquiterpene synthase. The sesquiterpene synthase is produced in a microorganism.

The disclosure provides genetically engineered C1-fixing microorganisms capable of producing nanobodies. Additionally, the disclosure provides engineered microorganisms comprising one or more disrupted genes to strategically divert carbon flux away from nonessential or undesirable products towards products and/or co-products of interest. The disclosure enables co-production of useful chemicals from gaseous substrates.

A method comprising a series of selective extraction techniques for the parallel production of biodiesel and isolation of several valuable co-products including an alkenone hydrocarbon mixture of the kerosene/jet fuel range (primarily C10-, C12-, and C17-hydrocarbons) and fucoxanthin, a high-valued carotenoid, from the marine alkenone-producing microalgae Isochrysis.