AI Article Synopsis
- Isoquercitrin is a natural compound that has important biological activities and is produced from rutin using the enzyme hesperidinase, but the process is usually slow and inefficient.
- A new biphase system was created using specific solvents that significantly improved the conversion of rutin to isoquercitrin, achieving 99.5% conversion and 93.9% yield within just 3 hours.
- The biphase system not only accelerates the reaction and allows for higher substrate concentration but also maintains a mild, environmentally friendly process, making it reusable for future applications.
Article Abstract
Isoquercitrin is a rare, natural ingredient with several biological activities that is a key precursor for the synthesis of enzymatically modified isoquercitrin (EMIQ). The enzymatic production of isoquercitrin from rutin catalyzed by hesperidinase is feasible; however, the bioprocess is hindered by low substrate concentration and a long reaction time. Thus, a novel biphase system consisting of [Bmim][BF4]:glycine-sodium hydroxide (pH 9) (10:90, v/v) and glyceryl triacetate (1:1, v/v) was initially established for isoquercitrin production. The biotransformation product was identified using liquid chromatography-mass spectrometry, and the bonding mechanism of the enzyme and substrate was inferred using circular dichroism spectra and kinetic parameters. The highest rutin conversion of 99.5% and isoquercitrin yield of 93.9% were obtained after 3 h. The reaction route is environmentally benign and mild, and the biphase system could be reused. The substrate concentration was increased 2.6-fold, the reaction time was reduced to three tenths the original time. The three-dimensional structure of hesperidinase was changed in the biphase system, which α-helix and random content were reduced and β-sheet content was increased. Thus, the developed biphase system can effectively strengthen the hesperidinase-catalyzed synthesis of isoquercitrin with high yield.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4346833 | PMC |
| http://dx.doi.org/10.1038/srep08682 | DOI Listing |
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