Once this work was done, researchers began to search for genocides, identified as breaking industrial pollution. The complex molecules usually include multiple enzymes, and the genes of these enzymes are eliminated together, so that they can be prepared as a single, large RNA that encoded all proteins. This makes it easy to manage their production, and makes it easy to make sure that bacteria only make proteins when they break down. In this case, clusters from 11 to 11 to 11.
Once nine of these gene clusters were identified, the DNA who would encode them was ordered and it was deposited in the same DNA molecule in yeast. Researchers took some time to improve this DNA genes and better to develop protein Vibrio natriegensAs contrary to any opponent used by genes commonly used by genes.
From yeast, each of them was entered an individual genes cluster Vibrio natriegensCreating different stresses that can digest one of the following: benzene, toloin, phenol, nephritis, bifinal, DBF 29, and debenzotheyphin (DBT). (Some of the nine clusters target the same pollution.) After that, each of them was solved with the chemical that they were engineered to digest. Five of nine researchers stressed researchers who could digest bifinals, phenol, napatalin, DBF, and toolon.
Good, but limited
From there, the researchers developed a system that enabled them to enter a new gene cluster at the end of the already inserted gene cluster. This allowed them to produce a cluster clusters, eventually adding the five people who had shown activity in the first tests. Given two days, it can remove about a quarter of the single tension phenol, one -third of the bifinals, 30 % of the DBF, all nefaries, and almost all the tolls.