The disclosure relates to enzymes, such as cucurbitadienol synthase (CDS), UDP-glycosyltransferase (UGT), C11 hydroxylase, epoxide hydrolase (EPH), squalene epoxidase (SQE), and/or cytochrome P450 reductase enzymes, recombinant host cells expressing the enzymes, and methods of producing mogrol precursors, mogrol, and/or mogrosides using such recombinant cells.

The present invention relates to a composition for preventing and treating cancer-related fatigue, characterized by containing a new processed ginseng powder or a new processed ginseng extract having an increased amount of a ginsenoside constituent, which was previously minute, by preparing a saponin-decomposing enzyme and subsequently using hydrolysis by the prepared saponin-decomposing enzyme and an organic acid. The composition according to the present invention can be very effectively used for preventing and treating cancer-related fatigue, the most destructive and universal side effect, which is caused by cancer itself or occurs in association with the treatment of cancer.

The present invention relates to a composition for preventing and treating cancer-related fatigue, characterized by containing a new processed ginseng powder or a new processed ginseng extract having an increased amount of a ginsenoside constituent, which was previously minute, by preparing a saponin-decomposing enzyme and subsequently using hydrolysis by the prepared saponin-decomposing enzyme and an organic acid. The composition according to the present invention can be very effectively used for preventing and treating cancer-related fatigue, the most destructive and universal side effect, which is caused by cancer itself or occurs in association with the treatment of cancer.

To provide a mogrol glycosyltransferase and a method for producing a mogrol glycoside using the enzyme. The present invention provides a mogrol glycosyltransferase and a method for producing a mogrol glycoside using the enzyme, and a transformant into which a mogrol glycosyltransferase gene is introduced and a method for preparing the transformant.

To provide a mogrol glycosyltransferase and a method for producing a mogrol glycoside using the enzyme. The present invention provides a mogrol glycosyltransferase and a method for producing a mogrol glycoside using the enzyme, and a transformant into which a mogrol glycosyltransferase gene is introduced and a method for preparing the transformant.

Isolated mogroside and mogrol biosynthetic pathway enzyme polypeptides useful in mogroside biosynthesis are provided. Mogroside biosynthetic pathway enzymes of the invention include squalene epoxidase (SE), expoxy hydratase (EH), cytochrome p450 (Cyp), cucurbitadienol synthase (CDS) and udp-glucosyl-transferase (UGT). Also provided are methods of producing a mogroside using the isolated mogroside and mogrol biosynthetic enzyme polypeptides, the methods comprising contacting a mogrol and/or a glycosylated mogrol (mogroside) with at least one UDP glucose glucosyl transferase (UGT) enzyme polypeptide of the invention catalyzing glucosylation of the mogrol and/or the glucosylated mogrol to produce a mogroside with an additional glucosyl moietie(s), thereby producing the mogroside. Alternatively or additionally provided is a method of synthesizing a mogrol, the method comprising contacting a mogrol precursor substrate with one or more mogrol biosynthetic pathway enzyme polypeptides as described herein catalyzing mogrol synthesis from the mogrol precursor substrate, thereby synthesizing the mogrol.

The invention relates to recombinant microorganisms and methods for producing mogroside compounds and mogroside precursors.

The invention relates to recombinant microorganisms and methods for producing mogroside compounds and mogroside precursors.

It is intended to provide a novel terpenoid derivative that exhibits anti-inflammatory action and a cytoprotective action by activating the Keap1/Nrf2/ARE signaling pathway. The present invention provides terpenoid derivative A represented by the following formula (I): ##STR00001##

It is intended to provide a novel terpenoid derivative that exhibits anti-inflammatory action and a cytoprotective action by activating the Keap1/Nrf2/ARE signaling pathway. The present invention provides terpenoid derivative A represented by the following formula (I): ##STR00001##