The setup of synthetic biological systems involving millions of bases is still limited by the required high quality of synthetic DNA. Important drivers to further open up the field are the accuracy and scale of chemical DNA synthesis and the downstream processing of longer DNA assembled from short fragments. We developed a new, highly parallel and miniaturized method for the preparation of high quality DNA termed “Megacloning” by using Next Generation Sequencing (NGS) technology in a preparative way. We demonstrate our method by processing both conventional and microarray-derived DNA oligonucleotides in combination with a bead-based high throughput pyrosequencing platform, gaining a 500-fold error reduction for microarray oligonucleotides i...
The ability to synthesize custom de novo DNA constructs rapidly, accurately and inexpensively is hig...
The technologies that enable writing and editing of DNA form the foundation of modern molecular biol...
Multiplex Automated Genome Engineering (MAGE) allows simultaneous mutagenesis of multiple target sit...
In 2005, a breakthrough technology was Announced that provided a quantum leap In DNA sequencing capa...
Development of cheap, high-throughput, and reliable gene synthesis methods will broadly stimulate pr...
The quality and the speed for genome sequencing has advanced at the same time that technology bounda...
DNA sequencing is used in a vast array of applications including pharmacogenetics, cancer research, ...
Current gene synthesis methods are driven by enzymatic reactions. Here we report the one-pot synthes...
Improving our ability to build and test DNA sequences will accelerate progress in biology. Multiplex...
Writing DNA plays a significant role in the fields of synthetic biology, functional genomics, and bi...
Development of cheap, high-throughput and reliable gene synthesis methods will broadly stimulate pro...
We developed a highly scalable 'shotgun' DNA synthesis technology by utilizing microchip o...
High-throughput preparation of plasmid DNA libraries for next-generation sequencing (NGS) is an impo...
Microfluidics may revolutionize our ability to write synthetic DNA by addressing several fundamental...
Genographic Consortium Contributors: Alan Cooper and Wolfgang Haak for the University of AdelaideBAC...
The ability to synthesize custom de novo DNA constructs rapidly, accurately and inexpensively is hig...
The technologies that enable writing and editing of DNA form the foundation of modern molecular biol...
Multiplex Automated Genome Engineering (MAGE) allows simultaneous mutagenesis of multiple target sit...
In 2005, a breakthrough technology was Announced that provided a quantum leap In DNA sequencing capa...
Development of cheap, high-throughput, and reliable gene synthesis methods will broadly stimulate pr...
The quality and the speed for genome sequencing has advanced at the same time that technology bounda...
DNA sequencing is used in a vast array of applications including pharmacogenetics, cancer research, ...
Current gene synthesis methods are driven by enzymatic reactions. Here we report the one-pot synthes...
Improving our ability to build and test DNA sequences will accelerate progress in biology. Multiplex...
Writing DNA plays a significant role in the fields of synthetic biology, functional genomics, and bi...
Development of cheap, high-throughput and reliable gene synthesis methods will broadly stimulate pro...
We developed a highly scalable 'shotgun' DNA synthesis technology by utilizing microchip o...
High-throughput preparation of plasmid DNA libraries for next-generation sequencing (NGS) is an impo...
Microfluidics may revolutionize our ability to write synthetic DNA by addressing several fundamental...
Genographic Consortium Contributors: Alan Cooper and Wolfgang Haak for the University of AdelaideBAC...
The ability to synthesize custom de novo DNA constructs rapidly, accurately and inexpensively is hig...
The technologies that enable writing and editing of DNA form the foundation of modern molecular biol...
Multiplex Automated Genome Engineering (MAGE) allows simultaneous mutagenesis of multiple target sit...