Team:DTU-Denmark/Codon Optimization

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Introduction and Methods

The purpose of this work was to determine whether we should codon optimize the genes from Nitrosomonas europaea and Pseudomonas aeruginosa that we are expressing in E. coli. We found that the heterologous expression of these genes was such that we did not need to codon optimize.

E. coli has a different tRNA pool than N. europaea and P. aeruginosa. When genes from these organisms are expressed in E. coli, they may have a very inefficient translation efficiency if the available tRNA pools are different.

Using tRNAscan-SE 1.4, we determined the codon tables for E. coli, N. europaea and P. aeruginosa. Then, we calculated the tRNA adaptation index for each organism using a script provided by Chris Workman (unpublished). Finally, we calculated the heterologous expression of our genes of interest from N. europaea and P. aeruginosa in E. coli (using the E. coli translation table).

Results

Graphs are shown for genes from Nitrosomonas europaea (left) and Pseudomonas aeruginosa (right). The top row shows tAI levels over these organisms, with our genes of interest in red, and the bottom row shows heterologous expression of the same genes of interest in E. coli.

Dtu codon opt Nitrosomonas 2.png Dtu codon opt Pseudomonas 2.png Dtu codon opt E coli with Nitrosomonas 2.png Dtu codon opt E coli with Pseudomonas 2.png

Conclusions and Discussion

Without codon optimization, the genes that we are interested in have tAI values close to the mean for E. coli. This is sufficient for our purposes, and codon optimization is not necessary. If we wanted to express these genes at a higher rate, there is room to codon optimize, however, since many of these genes code for membrane proteins, we are concerned about expression at too high a level that will lead to membrane stress in E. coli.