We present a method for identifying genomic modifications that optimize a complex phenotype through multiplex genome engineering and predictive modeling. We apply our method to identify six single nucleotide mutations that recover 59% of the fitness defect exhibited by the 63-codon E. coli strain C321.∆A. By introducing targeted combinations of changes in multiplex we generate rich genotypic and phenotypic diversity and characterize clones using whole-genome sequencing and doubling time measurements. Regularized multivariate linear regression accurately quantifies individual allelic effects and overcomes bias from hitchhiking mutations and context-dependence of genome editing efficiency that would confound other strategies. Electronic suppl...
The efficient generation of genetic diversity represents an invaluable molecular tool that can be us...
Our goal is to construct an improved Escherichia coli to serve both as a better model organism and a...
Disrupting the interaction between primase and helicase in Escherichia coli increases Okazaki fragme...
Abstract We present a method for identifying genomic modifications that optimize a complex phenotype...
Random mutagenesis and phenotype screening provide a powerful method for dissecting microbial functi...
Random mutagenesis and phenotype screening provide a powerful method for dissecting microbial functi...
Given the explosion in human genetic data, new high-throughput genetic methods are necessary for stu...
Genome-scale engineering of living organisms requires precise and economical methods to effi-ciently...
Adaptation under similar selective pressure often leads to comparable phenotypes. A longstanding que...
We here develop computational methods to facilitate use of 454 whole genome shotgun sequencing to id...
Understanding how genetic variation contributes to phenotypic differences is a fundamental question ...
We here develop computational methods to facilitate use of 454 whole genome shotgun sequencing to id...
SummaryAdaptation under similar selective pressure often leads to comparable phenotypes. A longstand...
We present genome engineering technologies that are capable of fundamentally reengineering genomes f...
Multiplex genome engineering is a standalone recombineering tool for large-scale programming and acc...
The efficient generation of genetic diversity represents an invaluable molecular tool that can be us...
Our goal is to construct an improved Escherichia coli to serve both as a better model organism and a...
Disrupting the interaction between primase and helicase in Escherichia coli increases Okazaki fragme...
Abstract We present a method for identifying genomic modifications that optimize a complex phenotype...
Random mutagenesis and phenotype screening provide a powerful method for dissecting microbial functi...
Random mutagenesis and phenotype screening provide a powerful method for dissecting microbial functi...
Given the explosion in human genetic data, new high-throughput genetic methods are necessary for stu...
Genome-scale engineering of living organisms requires precise and economical methods to effi-ciently...
Adaptation under similar selective pressure often leads to comparable phenotypes. A longstanding que...
We here develop computational methods to facilitate use of 454 whole genome shotgun sequencing to id...
Understanding how genetic variation contributes to phenotypic differences is a fundamental question ...
We here develop computational methods to facilitate use of 454 whole genome shotgun sequencing to id...
SummaryAdaptation under similar selective pressure often leads to comparable phenotypes. A longstand...
We present genome engineering technologies that are capable of fundamentally reengineering genomes f...
Multiplex genome engineering is a standalone recombineering tool for large-scale programming and acc...
The efficient generation of genetic diversity represents an invaluable molecular tool that can be us...
Our goal is to construct an improved Escherichia coli to serve both as a better model organism and a...
Disrupting the interaction between primase and helicase in Escherichia coli increases Okazaki fragme...