Team:Panama/Project

From 2010.igem.org

(Difference between revisions)
(The Experiments)
Line 11: Line 11:
===The Experiments ===
===The Experiments ===
 +
The purpose behind our project is to take a gene that produces the Rhamnosyltransferase 1 enzyme in a pathogenic bactria known as ''Pseudomona aeruginosa'' and insert it into an efficient and not so pathogenic bacteria that is ''Escherichia coli''. This will help create a rhamnolipid that can aid in the mosre efficent degradation of hydricarbons.
 +
 +
    We'll start out by selecting that components of our gene which will be inserted into the E. coli for expresion. We have chosen a promoter, a RBS, a reporter and a terminator. All of this from the plates that our friends at iGEM have conviniently sent all of us. These plasmids will then be used to obtained transformed bacteria that have those parts in them. Now, we can't use the entire plasmid for our construction.
=== Part 3: Results ===
=== Part 3: Results ===

Revision as of 14:27, 25 October 2010

iGEM Panama

  • Decrease font size
  • Default font size
  • Increase font size
  • default color
  • color1 color
  • color2 color
  • color3 color

Republic of Panama

Situated on the isthmus connecting North and South America, it is bordered by Costa Rica to the northwest, Colombia to the southeast, the Caribbean Sea to the north and the Pacific Ocean to the south.

iGEM PANAMA

In this picture: Carolina, Yisett, Claudio, Nicole, Lorena, Grimaldo, Natasha, Laura, Ernesto, Dra. Carmenza, Dr. Rao, Ezequiel

iGEM PANAMA

In this picture: Yisett, Silke, Yaraví, Carlos, Dr. Patrick Nee.

iGEM PANAMA

In this picture: Leyda, Zeuz, Laura

iGEM PANAMA

Labs.

Contents

Overall project

Standardization of the Rhamnosiltransferase 1 gene complex (rhlAB) into a Biobrick-friendly for rhamnolipid production in E. coli.


There is considerable interest among bio-industries in bioremediation products such as Rhamnolipids. Rhamnolipids as biosurfactants are important in the remediation of oil spill areas. The cleanup of the Exxon Valdez oil spill with rhamnolipids as biosurfactants was too expensive and complicated, therefore impractical for large-scale bioremediation. However, advances in genetic engineering and synthetic biology offer a viable solution to oil spill pollution clean up. In this project we use genetic engineering as a tool to integrate genetic parts by the biobrick assembly standard protocol of iGEM to develop a biobrick-friendly for rhamnosiltransferase 1 complex (rhlAB) gene expression in Escherichia coli for standardized rhamnolipid production. Our biobrick integrates a promoter, a RBS (ribosomal binding site), our gene sequence of rh1AB isolated from Pseudomonas aeruginosa, a GFP reporter and a terminator. All the parts fit into a plasmid backbone that can be transformed into E. coli strains, which can then produce rhamnolipids.

Project Details

The Experiments

The purpose behind our project is to take a gene that produces the Rhamnosyltransferase 1 enzyme in a pathogenic bactria known as Pseudomona aeruginosa and insert it into an efficient and not so pathogenic bacteria that is Escherichia coli. This will help create a rhamnolipid that can aid in the mosre efficent degradation of hydricarbons.

    We'll start out by selecting that components of our gene which will be inserted into the E. coli for expresion. We have chosen a promoter, a RBS, a reporter and a terminator. All of this from the plates that our friends at iGEM have conviniently sent all of us. These plasmids will then be used to obtained transformed bacteria that have those parts in them. Now, we can't use the entire plasmid for our construction.

Part 3: Results