6728-26-3Relevant articles and documents
Efficient Aerobic Oxidation of trans-2-Hexen-1-ol using the Aryl Alcohol Oxidase from Pleurotus eryngii
de Almeida,van Schie,Ma,Tieves,Younes,Fernández-Fueyo,Arends,Riul,Hollmann
, p. 2668 - 2672 (2019)
The selective oxidation of trans-2-hexen-1-ol to the corresponding aldehyde using a recombinant aryl alcohol oxidase from Pleurotus eryngii (PeAAOx) is reported. Especially using the two liquid phase system to overcome solubility and product inhibition issues enabled to achieve more than 2.200.000 catalytic turnovers for the production enzyme as well as molar product concentrations, pointing towards an economic feasible reaction. (Figure presented.).
Biocatalytic synthesis of the Green Note trans-2-hexenal in a continuous-flow microreactor
Van Schie, Morten M.C.H.,De Almeida, Tiago Pedroso,Laudadio, Gabriele,Tieves, Florian,Fernández-Fueyo, Elena,No?l, Timothy,Arends, Isabel W.C.E.,Hollmann, Frank
, p. 697 - 703 (2018)
The biocatalytic preparation of trans-hex-2-enal from trans-hex-2-enol using a novel aryl alcohol oxidase from Pleurotus eryngii (PeAAOx) is reported. As O2-dependent enzyme PeAAOx-dependent reactions are generally plagued by the poor solubility of O2 in aqueous media and mass transfer limitations resulting in poor reaction rates. These limitations were efficiently overcome by conducting the reaction in a flow-reactor setup reaching unpreceded catalytic activities for the enzyme in terms of turnover frequency (up to 38 s-1) and turnover numbers (more than 300000) pointing towards preparative usefulness of the proposed reaction scheme.
Characterization of a new (Z)-3:(E)-2-hexenal isomerase from tea (Camellia sinensis) involved in the conversion of (Z)-3-hexenal to (E)-2-hexenal
Chen, Cong,Chen, Shuna,He, Puming,Li, Bo,Tu, Youying,Wang, Feiquan,Wang, Kaixi,Wen, Xinli,Wu, Yuanyuan,Yu, Fei,Zhang, Jianming
, (2022/03/14)
Two major green leaf volatiles (GLVs) in tea that contribute greatly to tea aroma, particularly the green odor, are (E)-2-hexenal and (Z)-3-hexenal. Until now, their formation and related mechanisms during tea manufacture have remained unclear. Our data showed that the contents of (E)-2-hexenal and (Z)-3-hexenal increased more than 1000-fold after live tea leaves were torn. Subsequently, a new (Z)-3:(E)-2-hexenal isomerase (CsHI) was identified in Camellia sinensis. CsHI irreversibly catalyzed the conversion of (Z)-3-hexenal to (E)-2-hexenal. Abiotic stresses including low temperature, dehydration, and mechanical wounding, did not influence the (E)-2-hexenal content in intact tea leaves during withering, but regulated the proportions of (Z)-3-hexenal and (E)-2-hexenal in torn leaves by modulating CsHI at the transcript level. For the first time, this work reveals the formation of (E)-2-hexenal during tea processing and suggests that CsHI may play a pivotal role in tea flavor development as well as in plant defense against abiotic stresses.
Biosynthesis of Mycotoxin Fusaric Acid and Application of a PLP-Dependent Enzyme for Chemoenzymatic Synthesis of Substituted l -Pipecolic Acids
Hai, Yang,Chen, Mengbin,Huang, Arthur,Tang, Yi
supporting information, p. 19668 - 19677 (2020/12/01)
Fusaric acid (FA) is a well-known mycotoxin that plays an important role in plant pathology. The biosynthetic gene cluster for FA has been identified, but the biosynthetic pathway remains unclarified. Here, we elucidated the biosynthesis of FA, which features a two-enzyme catalytic cascade, a pyridoxal 5′-phosphate (PLP)-dependent enzyme (Fub7), and a flavin mononucleotide (FMN)-dependent oxidase (Fub9) in synthesizing the picolinic acid scaffold. FA biosynthesis also involves an off-line collaboration between a highly reducing polyketide synthase (HRPKS, Fub1) and a nonribosomal peptide synthetase (NRPS)-like carboxylic acid reductase (Fub8) in making an aliphatic α,β-unsaturated aldehyde. By harnessing the stereoselective C-C bond-forming activity of Fub7, we established a chemoenzymatic route for stereoconvergent synthesis of a series of 5-alkyl-, 5,5-dialkyl-, and 5,5,6-trialkyl-l-pipecolic acids of high diastereomeric ratio.
Method for continuously synthesizing trans -2 - hexenal by micro-channel reactor (by machine translation)
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Paragraph 0014; 0025; 0027; 0028-0047, (2019/08/01)
The invention belongs to the field, organic synthesis. The invention relates to a trans -2 - hexenal method. The method for preparing trans 4 - hexenal by continuous hydrolysis of -2 ethoxy 6 -1 dipropyl 3 -2 - dioxane (for short cyclization intermediate) through a micro-channel reactor is mainly solved by the preparation method. In the prior art, under the 10% presence of dilute acid (Unified), reflux distillation hydrolysis, oil-water layering, oil extraction, and a water layer backwater reactor are continuously distilled to the oil-free layer, and the water is undissolved. There is a long hydrolysis time, for example. Energy consumption is high, aftertreatment is tedious, serialization, hydrolysis yield and the like cannot be realized. By adopting the microchannel reactor, the 20 - 30% dilute acid concentration can be improved, the residence time is shortened, and continuous hydrolysis. The hydrolyzate is simple oil-water layering to obtain the crude product, and the hydrolyzed water layer can be recycled. The defects in the traditional hydrolytic distillation process, hydrolysis, long distillation time, complex process, and high energy consumption are overcome. , The process risk, and is suitable for industrial production. (by machine translation)