Multiplexed assays allow functional testing of large synthetic libraries of genetic elements, but are limited by the designability, length, fidelity and scale of the input DNA. Here, we improve DropSynth, a low-cost, multiplexed method that builds gene libraries by compartmentalizing and assembling microarray-derived oligonucleotides in vortexed emulsions. By optimizing enzyme choice, adding enzymatic error correction and increasing scale, we show that DropSynth can build thousands of gene-length fragments at >20% fidelity
<p>Promising applications in the design of various biological systems hold critical implications as ...
Droplet libraries consisting of many reagents encapsulated in separate droplets are necessary for ap...
De novo gene and genome synthesis enables the design of any sequence without the requirement of a pr...
Multiplexed assays allow functional testing of large synthetic libraries of genetic elements, but ar...
Improving our ability to build and test DNA sequences will accelerate progress in biology. Multiplex...
<p>Promising applications in the design of various biological systems hold critical implications as ...
Our ability to read and write DNA is fundamental for understanding Biology. While the past decade ha...
41 pagesInexpensive large-scale de novo gene synthesis technologies are in high demand for protein c...
Development of cheap, high-throughput, and reliable gene synthesis methods will broadly stimulate pr...
Development of cheap, high-throughput and reliable gene synthesis methods will broadly stimulate pro...
Cell-free transcription and translation systems promise to accelerate and simplify the engineering o...
Our ability to engineer organisms with new biosynthetic pathways and genetic circuits is limited by ...
<p>(A) Individual genes (top) are assembled from a set of oligonucleotides (arrows) with 15 bp of un...
Synthetic biology is an interdisciplinary field that aims to engineer biological systems for useful ...
We have achieved the ability to synthesize thousands of unique, long oligonucleotides (150mers) in f...
<p>Promising applications in the design of various biological systems hold critical implications as ...
Droplet libraries consisting of many reagents encapsulated in separate droplets are necessary for ap...
De novo gene and genome synthesis enables the design of any sequence without the requirement of a pr...
Multiplexed assays allow functional testing of large synthetic libraries of genetic elements, but ar...
Improving our ability to build and test DNA sequences will accelerate progress in biology. Multiplex...
<p>Promising applications in the design of various biological systems hold critical implications as ...
Our ability to read and write DNA is fundamental for understanding Biology. While the past decade ha...
41 pagesInexpensive large-scale de novo gene synthesis technologies are in high demand for protein c...
Development of cheap, high-throughput, and reliable gene synthesis methods will broadly stimulate pr...
Development of cheap, high-throughput and reliable gene synthesis methods will broadly stimulate pro...
Cell-free transcription and translation systems promise to accelerate and simplify the engineering o...
Our ability to engineer organisms with new biosynthetic pathways and genetic circuits is limited by ...
<p>(A) Individual genes (top) are assembled from a set of oligonucleotides (arrows) with 15 bp of un...
Synthetic biology is an interdisciplinary field that aims to engineer biological systems for useful ...
We have achieved the ability to synthesize thousands of unique, long oligonucleotides (150mers) in f...
<p>Promising applications in the design of various biological systems hold critical implications as ...
Droplet libraries consisting of many reagents encapsulated in separate droplets are necessary for ap...
De novo gene and genome synthesis enables the design of any sequence without the requirement of a pr...