Difference between revisions of "Team:Nagahama/Experiments"
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This experiment indicate that geraniol might be the effect of suppressing the growth of bacteria, and there might be a difference in the resistance of geraniol by bacteria. | This experiment indicate that geraniol might be the effect of suppressing the growth of bacteria, and there might be a difference in the resistance of geraniol by bacteria. | ||
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− | [[File:阻止円FOH.jpg|サイズpx|thumb| | + | [[File:阻止円FOH.jpg|サイズpx|thumb|center|fig3:Antibacterial confirmation of farnesol |
Comparison of the A and B(Chassis:''E. coli'') | Comparison of the A and B(Chassis:''E. coli'') | ||
A:ddH2O(300 μl)B:farnesol(stock solution, 300 μl) | A:ddH2O(300 μl)B:farnesol(stock solution, 300 μl) |
Revision as of 10:19, 16 September 2015
Contents
Result and Discussion
Confirm antibacterial activity of each volatile substances derived from plant
First, we examined our working hypothesis to “Flavorator” that the volatile gaseous substances from plants’ origin can show either the antibacterial or bacteriostatic activity in a box like “KOZOKO”. The results clearly showed that all the volatile substances of wasabi(Japanese horse radish), rose, garlic and onion had antibacterial properties. In the literatures, wasabi, rose, garlic and onion have antibacterial volatiles, such as allyl isothiocyanate (wasabi), geraniol (rose), allicin (garlic), and lachrymatory-factor (onion) These antibacterial volatiles are produced after complicated pathways, so for their syntheses, various enzymes are required Then, we searched metabolic pathways in E. coli, in which antibacterial volatiles can be either end products or intermediates. The search hit the geraniol. In E. coli, a precursor of geraniol, geranyl diphosphate (GPP), is synthesized. If we can successfully operate one enzyme to E. coli, it may synthesize geraniol using geranyl diphosphate as a precursor. In this context, we designed our system for establishing the concept of “Flavorator” to build up a brand-new biosynthetic pathways, in which geraniol is produced in the E. coli. In doing so, we transfer the three types of genes listed below to create the hyper-producer E. coli of geraniol.
We examined our working hypothesis to “Flavorator” that the volatile gaseous substances from plants’ origin can show either the antibacterial or bacteriostatic activity in a box like Kozoko.
Fragrance of Garlic
○Protocl here
Garlic grated produced its fragrances to suppress unwanted microbial growth. Left pork(A) didn't change the color. Right pork(B) changed Pink to Brown. We found from this result that fragrance of plants have antibacterial volatiles.
Fragrance of wasabi
Protocl here
Wasabi grated produced its fragrances to suppress unwanted microbial growth. We spread the wasabi grated on the rice cake. The rice cake didn’t change the color. We found from this result that fragrance of plants have antibacterial volatiles.
Fragrance of geraniol
Protocl here
Rose grated produced its fragrances to suppress unwanted microbial growth. We found from this result that fragrance of plants have antibacterial volatiles.
Increase in the amount of terpenoid's precursors
terpenoid's precursors device ([http://parts.igem.org/wiki/index.php?title=Part:BBa_K1653024 BBa_K1653024])
We want to make the E.coli produces farnesol and geraniol which are one of the terpenoids. To produce great quantity of terpenoids they need many terpene precursor. E.coli produces a small amount of the terpene precursor in MEP pathway. In MEP pathway, there are four enzymes (ispd, ispf, idi, dxs) which are speed limiting enzyme for terpenoids precursors produce in E.coli. In order to create a high-yield strains producing IPP and DMAPP, we exogenously engineer to superimpose these genes into E. coli to create strains overproducing IPP and DMAPP in a MEP pathway.To confirm increased production of terpene precursors by Terpene precurusor mass-production device. we put attention on ubiquinone. Ubiquinone 8 is made from Farnesyl diphosphate (FPP) which is one of the terpene precursors . quinone is one of the electron carrier present in the cell membrane of prokaryotes. And also they glow when exposed to UV rays.In the measurement of production of quinone it was measured by thin-layer chromatography. (TLC silica gel) Result: The figure on the left is analysis of ubiquinone 8 by thin-layer chromatography. Right lane is JM109 /Terpene precursor mass-production device with IPTG Left lane is JM109/Terpene precursor mass-production device IPTG minus . Both it was 2μl spot. The right of the figure,Estimation of ubiquinone-8 content instead Each intensity of spots indicating the content of ubiquinone-8 From two figures, those which are overexpressed in reintroduced to E. coli four genes, it is better to have overexpressed were many production of ubiquinone 8 as compared with those that do not overexpress.Light of the right lane, as compared to the light in the left lane is approximately 1.53 times the size of the light. Light of the right lane, as compared to the light in the left lane is approximately 1.53 times the size of the light. Discussion: From this result, the amount of ubiquinone 8 of the final material by the increased amount of terpene precursors is increased by re-introducing the four genes are overexpressed in E.coli. Therefore, it considered could strengthen the MEP pathway.
○protocol here
Analysis of ubiquinone-8 synthesized by E. coli JM109/[http://parts.igem.org/wiki/index.php?title=Part:BBa_K1653025 BBa_K1653025] by thin-layer chromatography (TLC)
Produce of Geraniol and Farnesol
Geraniol production
Geraniol production device ([http://parts.igem.org/wiki/index.php?title=Part:BBa_K1653025 BBa_K1653027])
We submit new part ([http://parts.igem.org/wiki/index.php?title=Part:BBa_K1653025 BBa_K1653027]) as producing geraniol (GOH). GOH is generated through GPP hydrolysis by geraniol synthase.
A MEP pathway has been shown to synthesize IPP and DMAPP efficiently in E. coli.
We tried to detect the geraniol by GC and GC-MS
However, the peaks were not observed.
Then we considered that E. coli engineered with geraniol production device ([http://parts.igem.org/wiki/index.php?title=Part:BBa_K1653027 BBa_K1653027]) showed different smell as compared with counterpart control (pCB1C3).
Farnesol production
Farnesol production device ([http://parts.igem.org/wiki/index.php?title=Part:BBa_K1653025 BBa_K1653025])
E. coli strain engineered with MEP pathway enzymes, ispDF, idi, and dxs , in combination with the enzyme gens, ispA, produced farnesol (Fig. 4B), which was detected by the Gas chromatography/Mas (Fig. 4A-G), having the same retention time as the farnesol chemica sample (Fig. 4A), while the counterpart control E. coli did not produce farnesol under the same conditions (Fig. 4C). Neither E. coli engineered with MEP pathway enzymes only nor the one engineered ispA only showed any farnesol by the Gas chromatography/Mass (Figs. 4D and E). Farnesol is generated through hydrolysis of farnesyl diphosphate (FPP) by the endogenous phosphatases. Increase in farnesol should be associated with an increased intracellular FPP level. FPP is, in turn, converted from geranyl diphosphate (GPP), whose precursors are IPP and DMAPP. IPP and DMPP are end products of MEP pathway that exists in E. coli. Conversion to FPP from IPP or DMPP requires ispA (or m-ispA). Following this context, we speculate that E. coli could produce farnesol better than the counterpart control cells under the up-regulated cellular conditions of an increased intracellular MEP pathway enzymes by metabolic engineering in combination with the special enzyme that converts IPP or DMAPP into FPP.
Gas Chromatography/Mass(GC/MS)
Efficient export of geraniol from E. coli to the media
We introduce an activator gene of AcrAB-TolC efflux pump (MarA) to release the geraniol from the cells and increase the content in the media that shows increase these flavors in the "Flavolator". In our study, we confilmed that overexpressing of marA gives host E. coli high resistance against geraniol and reduce intracellular geraniol concentration.
[http://parts.igem.org/wiki/index.php?title=Part:BBa_K1653020 BBa_K1653020]
Resistance
[http://parts.igem.org/wiki/index.php?title=Part:BBa_K1653020 BBa_K1653020]