Difference between revisions of "Part:BBa K5193003"
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− | This is a type of lipase used to esterify alcohol and acid into ester. In order to enhance the scent of our essential oil, we aimed to increase the amount of ester by using lipase (lip4) to catalyze acid and alcohol into ester.[1] See graph 1 for the mechanism of lipase-catalyzed esterification. | + | |
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+ | <partinfo>BBa_K5193000 short</partinfo>This is a type of lipase used to esterify alcohol and acid into ester. In order to enhance the scent of our essential oil, we aimed to increase the amount of ester by using lipase (lip4) to catalyze acid and alcohol into ester.[1] See graph 1 for the mechanism of lipase-catalyzed esterification. | ||
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<p>Experiment details: <a href="https://2024.igem.wiki/puiching-macau/new%20parts">New Parts</a></p> | <p>Experiment details: <a href="https://2024.igem.wiki/puiching-macau/new%20parts">New Parts</a></p> |
Revision as of 07:04, 21 September 2024
thermostable pelA (thermotoga maritima)This is a type of lipase used to esterify alcohol and acid into ester. In order to enhance the scent of our essential oil, we aimed to increase the amount of ester by using lipase (lip4) to catalyze acid and alcohol into ester.[1] See graph 1 for the mechanism of lipase-catalyzed esterification.
Experiment details: New Parts
In order to enhance the scent of our essential oil, we aimed to increase the amount of ester by using lipase (lip4) to catalyze acid and alcohol into ester.[1] See graph 1 for the mechanism of lipase-catalyzed esterification.
GCMS results
We first incubate flowers (raw ingredient) with lip4 crude enzyme at room temperature for half an hour, allowing the reaction to take place. Additionally, we tried incubating our essential oil extract (distilled) with enzyme extract of lip4 for 2.5 hours in a 37C 200 rpm shaker. The final esterified oil product went through Gas Chromatography–Mass Spectrometry (GC-MS, equipment: Agilent 8890-7000D) to validate the change of chemical composition in essential oil with and without post-treatment. We selected the top 10 Log2 fold changes components to compare.
As can be seen from the graph, the content of 3-methyl, 3-phenylpropyl ester increased the most with a positive 3.97 Log2 fold change when compared to essential oil added with pET11a control crude enzyme.
The content of 3-methyl, 3-phenylpropyl ester increased the most, with a positive 3.65 Log2 fold change when compared to the pET11a group. We can therefore conclude that it might be more efficient to add our lip4 extract to the flowers before distillation to enhance ester content.
The total ion current (TIC) chromatogram shows the relative abundance of detected compounds at different retention times. By assigning peaks to different compounds with retention time, we can identify the amount of different compounds in the lavender oil sample. Generally, the TIC pattern of lip4 post-treatment, lip4, and water are similar, with conspicuous peaks at 11 and 13.7 minutes.
Antibacterial effect
Ka Hong Wong from the University of Macau taught and guided our students to conduct experiments on the antibacterial effect of our lavender essential oil. Lavender essential oil has been proved to have antimicrobial properties, as essential oil caused the strain’s sensitivity to antibiotics by altering the permeability of the outer membrane of bacteria [3]. Oil with lipase pretreatment demonstrates a significant antibacterial effect. As can be seen from figure 5 a and b (violet bar), the OD600 (optical density at 600 nm) of culture at 1 ug/mL of lip4 lavender oil is much lower than that of lavender oil (incubated with water). Overall, both lavender oil samples demonstrate excellent antibacterial effects at concentrations higher than 2 ug/mL.
We also spread bacterial culture on agar plates (no antibiotic added). Our lavender oil shows strong inhibition to the bacteria. When compared to blank (added nothing) with diluted bacterial culture, only adding 1 ug can significantly reduce the area covered by bacteria (leaving colonies). Similarly, in original concentration, both 4 ug and 2 ug of lavender oil show notable antibacterial ability.
References:
- Tang SJ, Sun KH, Sun GH, Chang TY, Lee GC. Recombinant expression of the Candida rugosa lip4 lipase in Escherichia coli. Protein Expr Purif. 2000 Nov;20(2):308-13. doi: 10.1006/prep.2000.1304. PMID: 11049754.
- Kuo, C.-H.; Huang, C.-Y.; Lee, C.-L.; Kuo, W.-C.; Hsieh, S.-L.; Shieh, C.-J. Synthesis of DHA/EPA Ethyl Esters via Lipase-Catalyzed Acidolysis Using Novozym® 435: A Kinetic Study. Catalysts 2020, 10, 565. https://doi.org/10.3390/catal10050565
- Wińska K, Mączka W, Łyczko J, Grabarczyk M, Czubaszek A, Szumny A. Essential Oils as Antimicrobial Agents-Myth or Real Alternative? Molecules. 2019 Jun 5;24(11):2130. doi: 10.3390/molecules24112130. PMID: 31195752; PMCID: PMC6612361.