Functional optimization of gene clusters by combinatorial design and assembly | Nature Biotechnology https://t.co/0O7IrFjeoX
Functional optimization of gene clusters by combinatorial design and assembly. http://t.co/0ZPWEEWjya http://t.co/c1FAJDvkcB
Functional optimization of gene clusters by combinatorial design and assembly. http://t.co/lYpQsAcLJl http://t.co/TrhjfsyG75
Functional optimization of gene clusters by combinatorial design and assembly http://t.co/9pKAuLPiD4
Published! Research that blends computer engineering & life sciences. http://t.co/b4ylwMmcg1 @Pipette_Ninja @DouglasDensmore
Nature Biotechnology: Functional optimization of gene clusters by combinatorial design and assembly http://t.co/lA1ozQyTIq
Impressive study with systematic evaluation of #synbio design possibilities http://t.co/lrNbH8nCdb still missing something.. to reach 100%
ECE research that blends computer eng. & life sciences was published in @NatureBiotech, http://t.co/pt990wFDrQ @BUexperts @BUCollegeofENG.
Article: Functional optimization of gene clusters by combinatorial design and assembly - Smanski et al. http://t.co/LaoC17Hxvg
Totally refactored K. oxytoca nitrogen fixation gene cluster (16 genes, 103 parts) recovers 57% of wild-type activity http://t.co/ZSu18jKmQO
Article: Functional optimization of gene clusters by combinatorial design and assembly - Smanski et al. http://t.co/LaoC17Hxvg
New approach from Smanski, Voigt et al. looks promising for constructing synthetic gene clusters for biosynthesis. http://t.co/rWIl4qXDmR
Article: Functional optimization of gene clusters by combinatorial design and assembly - Smanski et al. http://t.co/LaoC17Hxvg
Article: Functional optimization of gene clusters by combinatorial design and assembly - Smanski et al. http://t.co/LaoC17Hxvg
Article: Functional optimization of gene clusters by combinatorial design and assembly - Smanski et al. http://t.co/LaoC17Hxvg
Article: Functional optimization of gene clusters by combinatorial design and assembly - Smanski et al. http://t.co/LaoC17Hxvg
Combinatorial assembly of completely refactored nitrogen fixation pathway recovers 57% of WT activity #SynBio #MIT http://t.co/nEcB3YBUFh
Combinatorial assembly of completely refactored nitrogen fixation pathway recovers 57% of WT activity #SynBio #MIT http://t.co/nEcB3YBUFh
Combinatorial assembly of completely refactored nitrogen fixation pathway recovers 57% of WT activity #SynBio #MIT http://t.co/nEcB3YBUFh
Combinatorial assembly of completely refactored nitrogen fixation pathway recovers 57% of WT activity #SynBio #MIT http://t.co/nEcB3YBUFh
Combinatorial assembly of completely refactored nitrogen fixation pathway recovers 57% of WT activity #SynBio #MIT http://t.co/nEcB3YBUFh
Combinatorial assembly of completely refactored nitrogen fixation pathway recovers 57% of WT activity #SynBio #MIT http://t.co/nEcB3YBUFh
Combinatorial assembly of completely refactored nitrogen fixation pathway recovers 57% of WT activity #SynBio #MIT http://t.co/nEcB3YBUFh
Combinatorial assembly of completely refactored nitrogen fixation pathway recovers 57% of WT activity #SynBio #MIT http://t.co/nEcB3YBUFh
#Biotech Functional optimization of gene clusters by combinatorial design and assembly http://t.co/s6JwW3ABqv by (@nature)