Parallel on-chip gene synthesis and application to optimization of protein expression

High-throughput synthesis of long DNA molecules would open up new experimental paradigms in synthetic biology and functional genomics. Quan et al . take a step toward this goal by integrating oligonucleotide synthesis, amplification and gene assembly on a single microarray, and apply the technology...

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Published in	Nature biotechnology Vol. 29; no. 5; pp. 449 - 452
Main Authors	Quan, Jiayuan, Saaem, Ishtiaq, Tang, Nicholas, Ma, Siying, Negre, Nicolas, Gong, Hui, White, Kevin P, Tian, Jingdong
Format	Journal Article
Language	English
Published	New York Nature Publishing Group US 01.05.2011 Nature Publishing Group
Subjects	631/61/338/552 Agriculture Algorithms Animals Antigens Bioinformatics Biological and medical sciences Biomedical and Life Sciences Biomedical Engineering/Biotechnology Biomedicine Biosynthesis Biotechnology Cellular proteins Codon - genetics Deoxyribonucleic acid DNA Drosophila Drosophila Proteins - genetics Drosophila Proteins - metabolism E coli Escherichia coli - genetics Escherichia coli Proteins - genetics Escherichia coli Proteins - metabolism Fundamental and applied biological sciences. Psychology Genes Genes, Synthetic Genetic engineering Genetic technics Insects Lac Operon - genetics letter Life Sciences Methods. Procedures. Technologies Nucleotide sequence Oligonucleotide Array Sequence Analysis - methods Physiological aspects Protein Engineering - methods Proteins Proteomics - methods Sequence Analysis, DNA Synthetic digonucleotides and genes. Sequencing Transcription Factors - genetics United States Amplification Gene Oligonucleotide System on a chip Synthetic biology Gene expression Chemical synthesis Optimization Protein
Online Access	Get full text
ISSN	1087-0156 1546-1696 1546-1696
DOI	10.1038/nbt.1847

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Abstract	High-throughput synthesis of long DNA molecules would open up new experimental paradigms in synthetic biology and functional genomics. Quan et al . take a step toward this goal by integrating oligonucleotide synthesis, amplification and gene assembly on a single microarray, and apply the technology to optimization of protein translation in a heterologous host. Low-cost, high-throughput gene synthesis and precise control of protein expression are of critical importance to synthetic biology and biotechnology 1 , 2 , 3 . Here we describe the development of an on-chip gene synthesis technology, which integrates on a single microchip the synthesis of DNA oligonucleotides using inkjet printing, isothermal oligonucleotide amplification and parallel gene assembly. Use of a mismatch-specific endonuclease for error correction results in an error rate of ∼0.19 errors per kb. We applied this approach to synthesize pools of thousands of codon-usage variants of lacZα and 74 challenging Drosophila protein antigens, which were then screened for expression in Escherichia coli . In one round of synthesis and screening, we obtained DNA sequences that were expressed at a wide range of levels, from zero to almost 60% of the total cell protein mass. This technology may facilitate systematic investigation of the molecular mechanisms of protein translation and the design, construction and evolution of macromolecular machines, metabolic networks and synthetic cells.
AbstractList	Low-cost, high-throughput gene synthesis and precise control of protein expression are of critical importance to synthetic biology and biotechnology. Here we describe the development of an on-chip gene synthesis technology, which integrates on a single microchip the synthesis of DNA oligonucleotides using inkjet printing, isothermal oligonucleotide amplification and parallel gene assembly. Use of a mismatch-specific endonuclease for error correction results in an error rate of ~0.19 errors per kb. We applied this approach to synthesize pools of thousands of codon-usage variants of lacZα and 74 challenging Drosophila protein antigens, which were then screened for expression in Escherichia coli. In one round of synthesis and screening, we obtained DNA sequences that were expressed at a wide range of levels, from zero to almost 60% of the total cell protein mass. This technology may facilitate systematic investigation of the molecular mechanisms of protein translation and the design, construction and evolution of macromolecular machines, metabolic networks and synthetic cells. High-throughput synthesis of long DNA molecules would open up new experimental paradigms in synthetic biology and functional genomics. Quan et al take a step toward this goal by integrating oligonucleotide synthesis, amplification and gene assembly on a single microarray, and apply the technology to optimization of protein translation in a heterologous host. Low-cost, high-throughput gene synthesis and precise control of protein expression are of critical importance to synthetic biology and biotechnology. Here we describe the development of an on-chip gene synthesis technology, which integrates on a single microchip the synthesis of DNA oligonucleotides using inkjet printing, isothermal oligonucleotide amplification and parallel gene assembly. Use of a mismatch-specific endonuclease for error correction results in an error rate of ~0.19 errors per kb. We applied this approach to synthesize pools of thousands of codon-usage variants of lacZα and 74 challenging Drosophila protein antigens, which were then screened for expression in Escherichia coli. In one round of synthesis and screening, we obtained DNA sequences that were expressed at a wide range of levels, from zero to almost 60% of the total cell protein mass. This technology may facilitate systematic investigation of the molecular mechanisms of protein translation and the design, construction and evolution of macromolecular machines, metabolic networks and synthetic cells.Low-cost, high-throughput gene synthesis and precise control of protein expression are of critical importance to synthetic biology and biotechnology. Here we describe the development of an on-chip gene synthesis technology, which integrates on a single microchip the synthesis of DNA oligonucleotides using inkjet printing, isothermal oligonucleotide amplification and parallel gene assembly. Use of a mismatch-specific endonuclease for error correction results in an error rate of ~0.19 errors per kb. We applied this approach to synthesize pools of thousands of codon-usage variants of lacZα and 74 challenging Drosophila protein antigens, which were then screened for expression in Escherichia coli. In one round of synthesis and screening, we obtained DNA sequences that were expressed at a wide range of levels, from zero to almost 60% of the total cell protein mass. This technology may facilitate systematic investigation of the molecular mechanisms of protein translation and the design, construction and evolution of macromolecular machines, metabolic networks and synthetic cells. Low-cost, high-throughput gene synthesis and precise control of protein expression are of critical importance to synthetic biology and biotechnology. Here we describe the development of an on-chip gene synthesis technology, which integrates on a single microchip the synthesis of DNA oligonucleotides using inkjet printing, isothermal oligonucleotide amplification and parallel gene assembly. Use of a mismatch-specific endonuclease for error correction results in an error rate of 0.19 errors per kb. We applied this approach to synthesize pools of thousands of codon-usage variants of lacZ alpha and 74 challenging Drosophila protein antigens, which were then screened for expression in Escherichia coli. In one round of synthesis and screening, we obtained DNA sequences that were expressed at a wide range of levels, from zero to almost 60% of the total cell protein mass. This technology may facilitate systematic investigation of the molecular mechanisms of protein translation and the design, construction and evolution of macromolecular machines, metabolic networks and synthetic cells. High-throughput synthesis of long DNA molecules would open up new experimental paradigms in synthetic biology and functional genomics. Quan et al . take a step toward this goal by integrating oligonucleotide synthesis, amplification and gene assembly on a single microarray, and apply the technology to optimization of protein translation in a heterologous host. Low-cost, high-throughput gene synthesis and precise control of protein expression are of critical importance to synthetic biology and biotechnology 1 , 2 , 3 . Here we describe the development of an on-chip gene synthesis technology, which integrates on a single microchip the synthesis of DNA oligonucleotides using inkjet printing, isothermal oligonucleotide amplification and parallel gene assembly. Use of a mismatch-specific endonuclease for error correction results in an error rate of ∼0.19 errors per kb. We applied this approach to synthesize pools of thousands of codon-usage variants of lacZα and 74 challenging Drosophila protein antigens, which were then screened for expression in Escherichia coli . In one round of synthesis and screening, we obtained DNA sequences that were expressed at a wide range of levels, from zero to almost 60% of the total cell protein mass. This technology may facilitate systematic investigation of the molecular mechanisms of protein translation and the design, construction and evolution of macromolecular machines, metabolic networks and synthetic cells.
Audience	Academic
Author	Tang, Nicholas Negre, Nicolas White, Kevin P Ma, Siying Quan, Jiayuan Tian, Jingdong Saaem, Ishtiaq Gong, Hui
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Snippet	High-throughput synthesis of long DNA molecules would open up new experimental paradigms in synthetic biology and functional genomics. Quan et al . take a step... Low-cost, high-throughput gene synthesis and precise control of protein expression are of critical importance to synthetic biology and biotechnology. Here we... High-throughput synthesis of long DNA molecules would open up new experimental paradigms in synthetic biology and functional genomics. Quan et al take a step...
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SubjectTerms	631/61/338/552 Agriculture Algorithms Animals Antigens Bioinformatics Biological and medical sciences Biomedical and Life Sciences Biomedical Engineering/Biotechnology Biomedicine Biosynthesis Biotechnology Cellular proteins Codon - genetics Deoxyribonucleic acid DNA Drosophila Drosophila Proteins - genetics Drosophila Proteins - metabolism E coli Escherichia coli - genetics Escherichia coli Proteins - genetics Escherichia coli Proteins - metabolism Fundamental and applied biological sciences. Psychology Genes Genes, Synthetic Genetic engineering Genetic technics Insects Lac Operon - genetics letter Life Sciences Methods. Procedures. Technologies Nucleotide sequence Oligonucleotide Array Sequence Analysis - methods Physiological aspects Protein Engineering - methods Proteins Proteomics - methods Sequence Analysis, DNA Synthetic digonucleotides and genes. Sequencing Transcription Factors - genetics
Title	Parallel on-chip gene synthesis and application to optimization of protein expression
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