George Church Lab: Church Lab Fatty Acid Production Strains
Unpublished
Plasmids from Article
| ID | Plasmid | Purpose |
|---|---|---|
| 48895 | EcNGRfEfC-R10S1B9 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48896 | EcNGRfEfC-R10S1C2 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48897 | EcNGRfEfC-R10S1C5 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48898 | EcNGRfEfC-R10S1C6 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48899 | EcNGRfEfC-R10S1C7 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48900 | EcNGRfEfC-R10S1C8 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48901 | EcNGRfEfC-R10S1C9 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48902 | EcNGRfEfC-R10S1C10 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48903 | EcNGRfEfC-R10S1C11 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48904 | EcNGRfEfC-R10S1C12 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48905 | EcNGRfEfC-R10S1E7 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48906 | EcNGRfEfC-R10S1E8 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48907 | EcNGRfEfC-R10M1B10 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48908 | EcNGRfEfC-R10M1C5 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48909 | EcNGRfEfC-R10M3A2 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48910 | EcNGRfEfC-R10M3A7 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48911 | EcNGRfEfC-R10M3A8 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48913 | EcNGRfEfC-R10M3C1 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48914 | EcNGRfEfC-R10M3C2 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48915 | EcNGRfEfC-R6M1A5 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48916 | EcNGRfEfC-R6M1A11 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48917 | EcNGRfEfC-R6M1B3 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48918 | EcNGRfEfC-R6M1B5 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48919 | EcNGRfEfC-R6M1C6 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48920 | EcNGRfEfC-R6M1C9 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48921 | EcNGRfEfC-R6M1D4 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48922 | EcNGRfEfC-R6M1E2 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48923 | EcNGRfEfC-R6M1E6 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48924 | EcNGRfEfC-R6M1G7 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48925 | EcNGRfEfC-R6M3B7 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48926 | EcNGRfEfC-R6M3B8 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48927 | EcNGRfEfC-R6M3C3 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48928 | EcNGRfEfC-R6M3C4 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48929 | EcNGRfEfC-R6M3C8 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48930 | EcNGRfEfC-R6M3E12 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48931 | EcNGRfEfC-R6M3F12 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48932 | EcNGRfEfC-R6M3G8 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48933 | EcNGRfEfC-R6M3H7 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48934 | EcNGRfEfC-R6M3H12 | diversity was introduced via homologous recombination to 40 sites to improve fatty acid production. Sequencing of the strains at these sites is ongoing. |
| 48935 | EcNGRfE | Base line strain is heat shock induce-able lambda red recombination system for MAGE (Multiplex Recombination Genome Engineering) |
| 48936 | EcNGRfC | Base line strain is heat shock induce-able lambda red recombination system for MAGE (Multiplex Recombination Genome Engineering) |
| 48937 | EcNGRfEfC | Base line strain is heat shock induce-able lambda red recombination system for MAGE (Multiplex Recombination Genome Engineering) |
| 48938 | EcNGRfEfC-fadD-tesA' | Base line strain is heat shock induce-able lambda red recombination system for MAGE (Multiplex Recombination Genome Engineering) |
| 48939 | EcNGRfEfC-fadD-tesA'-fadR | Base line strain is heat shock induce-able lambda red recombination system for MAGE (Multiplex Recombination Genome Engineering) |