Add to ORKGThe design and creation of synthetic genomes provide a powerful approach to understanding and engineering biology. However, it is often limited by the paucity of methods for precise genome manipulation. Here, we demonstrate the programmed fission of the Escherichia coli genome into diverse pairs of synthetic chromosomes and the programmed fusion of synthetic chromosomes to generate genomes with user-defined inversions and translocations. We further combine genome fission, chromosome transplant, and chromosome fusion to assemble genomic regions from different strains into a single genome. Thus, we program the scarless assembly of new genomes with nucleotide precision, a key step in the convergent synthesis of genomes from diverse progenitors...
Budding and fission yeast continue to serve as outstanding models for biomedical research. However, ...
AbstractBackground: Modern biological research is highly dependent upon recombinant DNA technology. ...
Budding and fission yeast continue to serve as outstanding models for biomedical research. However, ...
Synthetic chromosome rearrangement and modification by loxP-mediated evolution (SCRaMbLE) generates ...
We present genome engineering technologies that are capable of fundamentally reengineering genomes f...
International audienceClosing gaps in draft genome assemblies can be costly and time-consuming, and ...
Our recently acquired ability to synthesize DNA at large scale is opening the door to writing entire...
A defining cellular engineering challenge is the development of high-throughput and automated method...
We previously developed REXER (Replicon EXcision Enhanced Recombination); this method enables the re...
The international project Sc2.0 started 10 years ago by the Pr. Jef Boeke aims to build a fully synt...
As part of the Sc2.0 project, we designed and synthesized synthetic chromosome I. The total length o...
The international project Sc2.0 started 10 years ago by the Pr. Jef Boeke aims to build a fully synt...
© 2018 The Author(s). Synthetic biology tools, such as modular parts and combinatorial DNA assembly,...
Synthetic recoding of genomes, to remove targeted sense codons, may facilitate the encoded cellular ...
Multiplex genome engineering is a standalone recombineering tool for large-scale programming and acc...
Budding and fission yeast continue to serve as outstanding models for biomedical research. However, ...
AbstractBackground: Modern biological research is highly dependent upon recombinant DNA technology. ...
Budding and fission yeast continue to serve as outstanding models for biomedical research. However, ...
Synthetic chromosome rearrangement and modification by loxP-mediated evolution (SCRaMbLE) generates ...
We present genome engineering technologies that are capable of fundamentally reengineering genomes f...
International audienceClosing gaps in draft genome assemblies can be costly and time-consuming, and ...
Our recently acquired ability to synthesize DNA at large scale is opening the door to writing entire...
A defining cellular engineering challenge is the development of high-throughput and automated method...
We previously developed REXER (Replicon EXcision Enhanced Recombination); this method enables the re...
The international project Sc2.0 started 10 years ago by the Pr. Jef Boeke aims to build a fully synt...
As part of the Sc2.0 project, we designed and synthesized synthetic chromosome I. The total length o...
The international project Sc2.0 started 10 years ago by the Pr. Jef Boeke aims to build a fully synt...
© 2018 The Author(s). Synthetic biology tools, such as modular parts and combinatorial DNA assembly,...
Synthetic recoding of genomes, to remove targeted sense codons, may facilitate the encoded cellular ...
Multiplex genome engineering is a standalone recombineering tool for large-scale programming and acc...
Budding and fission yeast continue to serve as outstanding models for biomedical research. However, ...
AbstractBackground: Modern biological research is highly dependent upon recombinant DNA technology. ...
Budding and fission yeast continue to serve as outstanding models for biomedical research. However, ...