Part:BBa_K1211001

Clostridum propionicum propionate CoA transferase

This is the DNA coding for the enzyme propionate CoA transferase from Clostridum propionicum. The enzyme normally catalyzes the reaction: acetyl-CoA + propanoate <--> acetate + propanoyl-CoA. This mutated sequence has four point mutations and one amino acid substitution (compared to the wild type enzyme) in order to produce (D)-Lactyl-CoA.
We used this enzyme as a the first enzyme in the pathway to create PLA or Polylactic acid. However, this biobrick it produces (D)-Lactyl-CoA which is the precursor to all PHA, this biobrick can be used in a wide range of projects.

Data

Here is a gel showing our assembly of this gene. In order project we attached a second terminator to the gene as well.

• Our project used this gene along with a Pseudomonas resinovorans PHA synthase gene to produce PLA. We tested the ability of our E. coli to produce PLA by using Nile red
  • Nile red is an intercellular lipid strain
  • Nile red does not affect the growth of bacteria, and its fluorescence is quenched in water

• We then proceeded to test our plasmid in the plate reader.
  • Cells were grown for 24 hours with both enzymes induced and in the presence of Nile red. The cells were washed and re-suspended in PBS. The readings were normalized for optical density.

The first sample is the wild type cells. These do not have any heterologous enzymes and thus should not show any significant Nile red fluorescence, since they are not producing PLA

This is a sample with sample is the all oligos. This is a combination of both the RBS oligos and the KO oligos. This sample has 98 cells within the gate, which is a six and a half fold increase. This means that there was diversity in our population and thus MAGE worked to increase the amount of PLA that our E. coli could produce.

To read more about our project [http://2013.igem.org/Team:Yale/Project_Overview click here]

Sequence and Features