A Method for Multiplex Gene Synthesis Employing Error Correction Based on Expression: e0119927

A Method for Multiplex Gene Synthesis Employing Error Correction Based on Expression: e0119927

Our ability to engineer organisms with new biosynthetic pathways and genetic circuits is limited by the availability of protein characterization data and the cost of synthetic DNA. With new tools for reading and writing DNA, there are opportunities for scalable assays that more efficiently and cost...

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Veröffentlicht in:PloS one 2015-03, Vol.10 (3)
Hauptverfasser: Hsiau, Timothy H-C, Sukovich, David, Elms, Phillip, Prince, Robin N, Stritmatter, Tobias, Ruan, Paul, Curry, Bo, Anderson, Paige, Sampson, Jeff, Anderson, J Christopher
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Escherichia coli
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container_issue 3
container_start_page
container_title PloS one
container_volume 10
creator Hsiau, Timothy H-C
Sukovich, David
Elms, Phillip
Prince, Robin N
Stritmatter, Tobias
Ruan, Paul
Curry, Bo
Anderson, Paige
Sampson, Jeff
Anderson, J Christopher
description Our ability to engineer organisms with new biosynthetic pathways and genetic circuits is limited by the availability of protein characterization data and the cost of synthetic DNA. With new tools for reading and writing DNA, there are opportunities for scalable assays that more efficiently and cost effectively mine for biochemical protein characteristics. To that end, we have developed the Multiplex Library Synthesis and Expression Correction (MuLSEC) method for rapid assembly, error correction, and expression characterization of many genes as a pooled library. This methodology enables gene synthesis from microarray-synthesized oligonucleotide pools with a one-pot technique, eliminating the need for robotic liquid handling. Post assembly, the gene library is subjected to an ampicillin based quality control selection, which serves as both an error correction step and a selection for proteins that are properly expressed and folded in E. coli. Next generation sequencing of post selection DNA enables quantitative analysis of gene expression characteristics. We demonstrate the feasibility of this approach by building and testing over 90 genes for empirical evidence of soluble expression. This technique reduces the problem of part characterization to multiplex oligonucleotide synthesis and deep sequencing, two technologies under extensive development with projected cost reduction.
doi_str_mv 10.1371/journal.pone.0119927
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subjects Escherichia coli
title A Method for Multiplex Gene Synthesis Employing Error Correction Based on Expression: e0119927
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