Team:Tokyo-NoKoGen/Project/solubilization
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<h2>Introduction</h2> | <h2>Introduction</h2> | ||
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- | <p> Bitumen is hydrocarbon which adhered to oil sand. Bitumen is consisted of poisonous organic compounds such as naphthalene, phenanthrene, benzopyrene and so on. It is difficult to recycle bitumen as fuels because it is hard to extract target compound from bitumen. | + | <p> Bitumen is hydrocarbon which adhered to oil sand. Bitumen is consisted of poisonous organic compounds such as naphthalene, phenanthrene, benzopyrene and so on. It is difficult to recycle bitumen as fuels because it is hard to extract target compound from bitumen.<br> |
Surfactants enable to solubilize organic compound, but it is difficult to biodegradate artificial surfactants which we usually use. On the other hand, biosurfactants which microbes produce by themselves are able to biodegradate. That is why, biosurfactants are very ecology. | Surfactants enable to solubilize organic compound, but it is difficult to biodegradate artificial surfactants which we usually use. On the other hand, biosurfactants which microbes produce by themselves are able to biodegradate. That is why, biosurfactants are very ecology. | ||
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Revision as of 16:07, 27 October 2010
Introduction
Bitumen is hydrocarbon which adhered to oil sand. Bitumen is consisted of poisonous organic compounds such as naphthalene, phenanthrene, benzopyrene and so on. It is difficult to recycle bitumen as fuels because it is hard to extract target compound from bitumen.
Surfactants enable to solubilize organic compound, but it is difficult to biodegradate artificial surfactants which we usually use. On the other hand, biosurfactants which microbes produce by themselves are able to biodegradate. That is why, biosurfactants are very ecology.
We try to extract organic compound such as naphthalene from bitumen using solubilization device. Psudomonas aeruginosa is known to produce biosurfactant called as rhamnolipid. Rhamnolipid form micelle with organic compound and micelle were able to soulubilize. Then, we cloned RhlA and RhlB genes which are necessary to produce rhamnolopid from Psudomonas aeruginosa. E. coli was transformed with plasmid involved RhlA or RhlB gene. We tried to construct solubilization device which E. coli encoded rhamnolopid genes.
Why is this device needed?
For the first of all, we have to make the target be easily taken up from an mixture. Oil sand is a good example. It is a naturally occurring mixture of sand, clay and several minerals, and bitumen. This bitumen is a material for a usable fuels such as gasoline and diesel, though it is too viscous to produce fuels. One of the solutions is to solubilize a object from a mixture. This is because solubilization system is the first necessary step in Eco Tanker.
What is this device composed inside it?
Fig.1 shows Rhamnolipids Biosynthetic Pathway, and you can see where two genes work for.
Transacylase:
It catalyzes the transfer of β-hydroxydecanoyl moieties from acyl carrier protein (ACP) to coenzyme A (CoA). With this reaction, 3-(3-hydroxyalkanoyloxy)alkanoic acids (HAAs), which Fig.2 shows, are produced.
Rhamnosyltransferase:
It catalyzes the reaction, which uses dTDP-L-rhamnose and an HAA as precursors, yielding mono-rhamnolipids(rhamnolipids contains both mono-rhamnolipids and di-rhamnolipid naturally(Fig.3).).
How does this device work in EcoTanker
Our objective construct is as above. We ligate it to pSB1C3 and transform E. coli DH5α.
P(H)const.:BBa_J23100, P(M)const.:BBa_J23111, RBS:BBa_B0034, Term:BBa_B0016
Progress
At first, we cultured P. aeruginosa on agar plates including nutrient broth and we did cloning of the two genes, RhlA and RhlB from the colonies of P. aeruginosa respectively by colony PCR. Secondly, in order to add promoter, RBS and terminator to RhlA or RhlB respectively, we made mega-primer by PCR. Using the primers, we amplified the genes, promoter-RBS-RhlA-terminator and promoter-RBS-RhlB-terminator. After digested by EcoRI and PstI, we ligated the PCR products to