5579-78-2Relevant articles and documents
A milk lactone perfume continuous compound into method (by machine translation)
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, (2019/05/08)
The invention belongs to the technical field of synthetic perfume, and in particular relates to a milk lactone perfume continuous compound into a method, including the role of the alkali under the condition of the aldol reaction, then by hydrogenation reaction, Baeyer - Villiger oxidation, acid continuous hydrolysis, dehydrating and gets milk lactone perfume; the aldol condensation reactions include: part of the as a footing of a cyclohexanone with a alkali mixing, heating processing, the rest [...] butyraldehyde mixture of cyclohexanone with, side drop edge added stirring, and after dropping to continue stirring, thermal insulation reaction-butyraldehyde content to 1% following the end of the reaction; static divider separating the oil, collected and recycled water; collecting oil layer after washing the processing and then transferred to the distillating still distillation recovery excessive cyclohexanone mechanically, the collection of the condensation product of the pan bottom; the invention by adding cyclohexanone in a different way, improving the yield of the aldol condensation reaction; and, of the present invention under the conditions of reaction temperature, can step from an aldol condensation product. (by machine translation)
Synthetic method of epsilon-decalactone perfume
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, (2019/05/15)
The invention belongs to the technical field of perfume synthesis, and particularly relates to a synthetic method of epsilon-decalactone perfume. The synthetic method comprises the following steps: (1) mixing an alkaline solution with a part of cyclohexanone, then dropwise adding a mixture of n-butyraldehyde and the rest of cyclohexanone into the mixture, carrying out stirring, and carrying out heat preservation for a reaction; (2) standing the reactants in the step (1), collecting a water layer, collecting an oil layer, and washing the oil layer with water to obtain a condensed product 2-butenyl cyclohexanone crude product; (3) carrying out distilling to recover cyclohexanone to obtain 2-butenyl cyclohexanone; (4) carrying out a hydrogenation reaction; (5) collecting a liquid-phase intermediate product 2-butyl cyclohexanone crude product, and carrying out distilling to obtain 2-butyl cyclohexanone; (6) carrying out an oxidation reaction; and (7) carrying out distilling purification toobtain the epsilon-decalactone perfume product. According to the invention, the cyclohexanone is added into the reaction system in different ways, the excess cyclohexanone is used as a reaction solvent through a stirring dripping technology, and the cyclohexanone is reused after being recycled, so that separation and purification processes of the reaction solvent are reduced, and a high reactionyield is ensured.
Laboratory evolution of robust and enantioselective Baeyer-Villiger monooxygenases for asymmetric catalysis
Reetz, Manfred T.,Wu, Sheng
experimental part, p. 15424 - 15432 (2010/02/16)
The Baeyer-Villiger Monooxygenase, Phenylacetone Monooxygenase (PAMO), recently discovered by Fraaije, Janssen, and co-workers, is unusually thermostable, which makes it a promising candidate for catalyzing enantioselective Baeyer-Villiger reactions in organic chemistry. Unfortunately, however, its substrate scope is very limited, reasonable reaction rates being observed essentially only with phenylacetone and similar linear phenyl-substituted analogs. Previous protein engineering attempts to broaden the range of substrate acceptance and to control enantioselectivity have been met with limited success, including rational design and directed evolution based on saturation mutagenesis with formation of focused mutant libraries, which may have to do with complex domain movements. In the present study, a new approach to laboratory evolution is described which has led to mutants showing unusually high activity and enantioselectivity in the oxidative kinetic resolution of a variety of 2-aryl and 2-alkylcyclohexanones which are not accepted by the wild-type (WT) PAMO and of a structurally very different bicyclic ketone. The new strategy exploits bioinformatics data derived from sequence alignment of eight different Baeyer-Villiger Monooxygenases, which in conjunction with the known X-ray structure of PAMO and induced fit docking suggests potential randomization sites, different from all previous approaches to focused library generation. Sites harboring highly conserved proline in a loop of the WT are targeted. The most active and enantioselective mutants retain the high thermostability of the parent WT PAMO. The success of the "proline" hypothesis in the present system calls for further testing in future laboratory evolution studies.
