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An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer

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Zeitschriftentitel: Scientific Reports
Personen und Körperschaften: Li, Hui, Huang, Ye, Wei, Zewen, Wang, Wei, Yang, Zhenjun, Liang, Zicai, Li, Zhihong
In: Scientific Reports, 9, 2019, 1
Format: E-Article
Sprache: Englisch
veröffentlicht:
Springer Science and Business Media LLC
Schlagwörter:
Multidisciplinary
author_facet Li, Hui
Huang, Ye
Wei, Zewen
Wang, Wei
Yang, Zhenjun
Liang, Zicai
Li, Zhihong
Li, Hui
Huang, Ye
Wei, Zewen
Wang, Wei
Yang, Zhenjun
Liang, Zicai
Li, Zhihong
author Li, Hui
Huang, Ye
Wei, Zewen
Wang, Wei
Yang, Zhenjun
Liang, Zicai
Li, Zhihong
spellingShingle Li, Hui
Huang, Ye
Wei, Zewen
Wang, Wei
Yang, Zhenjun
Liang, Zicai
Li, Zhihong
Scientific Reports
An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer
Multidisciplinary
author_sort li, hui
spelling Li, Hui Huang, Ye Wei, Zewen Wang, Wei Yang, Zhenjun Liang, Zicai Li, Zhihong 2045-2322 Springer Science and Business Media LLC Multidisciplinary http://dx.doi.org/10.1038/s41598-019-41519-0 <jats:title>Abstract</jats:title><jats:p>Synthetic oligonucleotides (oligos) are important tools in the fields of molecular biology and genetic engineering. For applications requiring a large number of oligos with high concentration, it is critical to perform high throughput oligo synthesis and achieve high yield of each oligo. This study reports a microreactor chip for oligo synthesis. By incorporating silica beads in the microreactors, the surface area of the solid substrate for oligo synthesis increases significantly in each microreactor. These beads are fixed in the microreactors to withstand the flushing step in oligo synthesis. Compared to conventional synthesis methods, this design is able to avoid protocols to hold the beads and integrate more microreactors on a chip. An inkjet printer is utilized to deliver chemical reagents in the microreactors. To evaluate the feasibility of oligo synthesis using this proof-of-concept synthesizer, an oligo with six nucleotide units is successfully synthesized.</jats:p> An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer Scientific Reports
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title An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer
title_unstemmed An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer
title_full An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer
title_fullStr An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer
title_full_unstemmed An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer
title_short An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer
title_sort an oligonucleotide synthesizer based on a microreactor chip and an inkjet printer
topic Multidisciplinary
url http://dx.doi.org/10.1038/s41598-019-41519-0
publishDate 2019
physical
description <jats:title>Abstract</jats:title><jats:p>Synthetic oligonucleotides (oligos) are important tools in the fields of molecular biology and genetic engineering. For applications requiring a large number of oligos with high concentration, it is critical to perform high throughput oligo synthesis and achieve high yield of each oligo. This study reports a microreactor chip for oligo synthesis. By incorporating silica beads in the microreactors, the surface area of the solid substrate for oligo synthesis increases significantly in each microreactor. These beads are fixed in the microreactors to withstand the flushing step in oligo synthesis. Compared to conventional synthesis methods, this design is able to avoid protocols to hold the beads and integrate more microreactors on a chip. An inkjet printer is utilized to deliver chemical reagents in the microreactors. To evaluate the feasibility of oligo synthesis using this proof-of-concept synthesizer, an oligo with six nucleotide units is successfully synthesized.</jats:p>
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author Li, Hui, Huang, Ye, Wei, Zewen, Wang, Wei, Yang, Zhenjun, Liang, Zicai, Li, Zhihong
author_facet Li, Hui, Huang, Ye, Wei, Zewen, Wang, Wei, Yang, Zhenjun, Liang, Zicai, Li, Zhihong, Li, Hui, Huang, Ye, Wei, Zewen, Wang, Wei, Yang, Zhenjun, Liang, Zicai, Li, Zhihong
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description <jats:title>Abstract</jats:title><jats:p>Synthetic oligonucleotides (oligos) are important tools in the fields of molecular biology and genetic engineering. For applications requiring a large number of oligos with high concentration, it is critical to perform high throughput oligo synthesis and achieve high yield of each oligo. This study reports a microreactor chip for oligo synthesis. By incorporating silica beads in the microreactors, the surface area of the solid substrate for oligo synthesis increases significantly in each microreactor. These beads are fixed in the microreactors to withstand the flushing step in oligo synthesis. Compared to conventional synthesis methods, this design is able to avoid protocols to hold the beads and integrate more microreactors on a chip. An inkjet printer is utilized to deliver chemical reagents in the microreactors. To evaluate the feasibility of oligo synthesis using this proof-of-concept synthesizer, an oligo with six nucleotide units is successfully synthesized.</jats:p>
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spelling Li, Hui Huang, Ye Wei, Zewen Wang, Wei Yang, Zhenjun Liang, Zicai Li, Zhihong 2045-2322 Springer Science and Business Media LLC Multidisciplinary http://dx.doi.org/10.1038/s41598-019-41519-0 <jats:title>Abstract</jats:title><jats:p>Synthetic oligonucleotides (oligos) are important tools in the fields of molecular biology and genetic engineering. For applications requiring a large number of oligos with high concentration, it is critical to perform high throughput oligo synthesis and achieve high yield of each oligo. This study reports a microreactor chip for oligo synthesis. By incorporating silica beads in the microreactors, the surface area of the solid substrate for oligo synthesis increases significantly in each microreactor. These beads are fixed in the microreactors to withstand the flushing step in oligo synthesis. Compared to conventional synthesis methods, this design is able to avoid protocols to hold the beads and integrate more microreactors on a chip. An inkjet printer is utilized to deliver chemical reagents in the microreactors. To evaluate the feasibility of oligo synthesis using this proof-of-concept synthesizer, an oligo with six nucleotide units is successfully synthesized.</jats:p> An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer Scientific Reports
spellingShingle Li, Hui, Huang, Ye, Wei, Zewen, Wang, Wei, Yang, Zhenjun, Liang, Zicai, Li, Zhihong, Scientific Reports, An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer, Multidisciplinary
title An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer
title_full An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer
title_fullStr An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer
title_full_unstemmed An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer
title_short An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer
title_sort an oligonucleotide synthesizer based on a microreactor chip and an inkjet printer
title_unstemmed An oligonucleotide synthesizer based on a microreactor chip and an inkjet printer
topic Multidisciplinary
url http://dx.doi.org/10.1038/s41598-019-41519-0