Difference between revisions of "Part:BBa K5193001"
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<p>For P5, the amount of oil extracted with the incubation in room temperature is similar to that of P3 and the PET11a control. However, P3 has a notable higher yield with incubation at 50°C than P5.</p> | <p>For P5, the amount of oil extracted with the incubation in room temperature is similar to that of P3 and the PET11a control. However, P3 has a notable higher yield with incubation at 50°C than P5.</p> | ||
<p>In short, the combination of two enzyme extracts, P3 and P7 demonstrates visible improvement of EO yield. In contrast, the individual tests of P3 and P7 had shown a much lower volume of EO.</p> | <p>In short, the combination of two enzyme extracts, P3 and P7 demonstrates visible improvement of EO yield. In contrast, the individual tests of P3 and P7 had shown a much lower volume of EO.</p> | ||
− | <p>In order to choose the best reacting temperature, we also compared the yield between reacting in 50°C and in room temperature. As shown, most of the data demonstrated that the yield of extraction after being reacted at 50°C is higher than that of room temperature, with the exception of water (control).</p> | + | <p>In order to choose the best reacting temperature, we also compared the yield between reacting in 50°C and in room temperature. As shown, most of the data demonstrated that the yield of extraction after being reacted at 50°C is higher than that of room temperature, with the exception of water (negative control).</p> |
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Revision as of 12:56, 2 October 2024
pelA (Pectrobacterium astrospecticum)
This is a pectinase from Pectrobacterium astrospecticum with no thermostable ability. In the part design, we added a NSP4 tag before the sequence to enhance secretion of the protein. We used it to hydrolyze pectin.
As EO extraction is often completed with distillation at high temperatures, specific enzymes were selected for their thermostable capabilities. Beside utilizing cellulases to break down cell walls and increase the yield of essential oils (EOs). We also applied a similar method with NSP4-themostable pelA (from Thermotoga maritima BBa_K5193000) [1] and NSP4-pelA (from Pectobacterium astrospecticum BBa_K5193001) to hydrolyse pectin, a component of the middle lamella and the primary cell wall.
The activity of pectinase was measured by the DNS (3,5-dinitrosalicylic acid) method through the amount of reducing sugars produced during hydrolysis of the polysaccharide. [2]
After adding 1% pectin solution to our bacteria culture, we first incubated the solution for 2 hours at room temperature, 50°C and 90°C in order to allow for a complete reaction between the pectinase and its substrate. However, we found that similar to cellulase, the most significant impact on the absorbance reading is when the incubation takes place at 50°C. (See Fig 1.) Therefore we chose to incubate the solution for 2 hours at 50°C subsequently. After adding DNS reagent to the solution, we incubated the solution again for another 10 minutes at 50°C to stop the reaction. We then added our solution into a 96-well transparent plate for OD measurement at 540 nm. The results are shown below. (See Fig 2.)