Cargando…
An automated Design-Build-Test-Learn pipeline for enhanced microbial production of fine chemicals
The microbial production of fine chemicals provides a promising biosustainable manufacturing solution that has led to the successful production of a growing catalog of natural products and high-value chemicals. However, development at industrial levels has been hindered by the large resource investm...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Nature Publishing Group UK
2018
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6123781/ https://www.ncbi.nlm.nih.gov/pubmed/30271948 http://dx.doi.org/10.1038/s42003-018-0076-9 |
| _version_ | 1783352904331034624 |
|---|---|
| author | Carbonell, Pablo Jervis, Adrian J. Robinson, Christopher J. Yan, Cunyu Dunstan, Mark Swainston, Neil Vinaixa, Maria Hollywood, Katherine A. Currin, Andrew Rattray, Nicholas J. W. Taylor, Sandra Spiess, Reynard Sung, Rehana Williams, Alan R. Fellows, Donal Stanford, Natalie J. Mulherin, Paul Le Feuvre, Rosalind Barran, Perdita Goodacre, Royston Turner, Nicholas J. Goble, Carole Chen, George Guoqiang Kell, Douglas B. Micklefield, Jason Breitling, Rainer Takano, Eriko Faulon, Jean-Loup Scrutton, Nigel S. |
| author_facet | Carbonell, Pablo Jervis, Adrian J. Robinson, Christopher J. Yan, Cunyu Dunstan, Mark Swainston, Neil Vinaixa, Maria Hollywood, Katherine A. Currin, Andrew Rattray, Nicholas J. W. Taylor, Sandra Spiess, Reynard Sung, Rehana Williams, Alan R. Fellows, Donal Stanford, Natalie J. Mulherin, Paul Le Feuvre, Rosalind Barran, Perdita Goodacre, Royston Turner, Nicholas J. Goble, Carole Chen, George Guoqiang Kell, Douglas B. Micklefield, Jason Breitling, Rainer Takano, Eriko Faulon, Jean-Loup Scrutton, Nigel S. |
| author_sort | Carbonell, Pablo |
| collection | PubMed |
| description | The microbial production of fine chemicals provides a promising biosustainable manufacturing solution that has led to the successful production of a growing catalog of natural products and high-value chemicals. However, development at industrial levels has been hindered by the large resource investments required. Here we present an integrated Design–Build-Test–Learn (DBTL) pipeline for the discovery and optimization of biosynthetic pathways, which is designed to be compound agnostic and automated throughout. We initially applied the pipeline for the production of the flavonoid (2S)-pinocembrin in Escherichia coli, to demonstrate rapid iterative DBTL cycling with automation at every stage. In this case, application of two DBTL cycles successfully established a production pathway improved by 500-fold, with competitive titers up to 88 mg L(−1). The further application of the pipeline to optimize an alkaloids pathway demonstrates how it could facilitate the rapid optimization of microbial strains for production of any chemical compound of interest. |
| format | Online Article Text |
| id | pubmed-6123781 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2018 |
| publisher | Nature Publishing Group UK |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-61237812018-09-28 An automated Design-Build-Test-Learn pipeline for enhanced microbial production of fine chemicals Carbonell, Pablo Jervis, Adrian J. Robinson, Christopher J. Yan, Cunyu Dunstan, Mark Swainston, Neil Vinaixa, Maria Hollywood, Katherine A. Currin, Andrew Rattray, Nicholas J. W. Taylor, Sandra Spiess, Reynard Sung, Rehana Williams, Alan R. Fellows, Donal Stanford, Natalie J. Mulherin, Paul Le Feuvre, Rosalind Barran, Perdita Goodacre, Royston Turner, Nicholas J. Goble, Carole Chen, George Guoqiang Kell, Douglas B. Micklefield, Jason Breitling, Rainer Takano, Eriko Faulon, Jean-Loup Scrutton, Nigel S. Commun Biol Article The microbial production of fine chemicals provides a promising biosustainable manufacturing solution that has led to the successful production of a growing catalog of natural products and high-value chemicals. However, development at industrial levels has been hindered by the large resource investments required. Here we present an integrated Design–Build-Test–Learn (DBTL) pipeline for the discovery and optimization of biosynthetic pathways, which is designed to be compound agnostic and automated throughout. We initially applied the pipeline for the production of the flavonoid (2S)-pinocembrin in Escherichia coli, to demonstrate rapid iterative DBTL cycling with automation at every stage. In this case, application of two DBTL cycles successfully established a production pathway improved by 500-fold, with competitive titers up to 88 mg L(−1). The further application of the pipeline to optimize an alkaloids pathway demonstrates how it could facilitate the rapid optimization of microbial strains for production of any chemical compound of interest. Nature Publishing Group UK 2018-06-08 /pmc/articles/PMC6123781/ /pubmed/30271948 http://dx.doi.org/10.1038/s42003-018-0076-9 Text en © The Author(s) 2018 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/. |
| spellingShingle | Article Carbonell, Pablo Jervis, Adrian J. Robinson, Christopher J. Yan, Cunyu Dunstan, Mark Swainston, Neil Vinaixa, Maria Hollywood, Katherine A. Currin, Andrew Rattray, Nicholas J. W. Taylor, Sandra Spiess, Reynard Sung, Rehana Williams, Alan R. Fellows, Donal Stanford, Natalie J. Mulherin, Paul Le Feuvre, Rosalind Barran, Perdita Goodacre, Royston Turner, Nicholas J. Goble, Carole Chen, George Guoqiang Kell, Douglas B. Micklefield, Jason Breitling, Rainer Takano, Eriko Faulon, Jean-Loup Scrutton, Nigel S. An automated Design-Build-Test-Learn pipeline for enhanced microbial production of fine chemicals |
| title | An automated Design-Build-Test-Learn pipeline for enhanced microbial production of fine chemicals |
| title_full | An automated Design-Build-Test-Learn pipeline for enhanced microbial production of fine chemicals |
| title_fullStr | An automated Design-Build-Test-Learn pipeline for enhanced microbial production of fine chemicals |
| title_full_unstemmed | An automated Design-Build-Test-Learn pipeline for enhanced microbial production of fine chemicals |
| title_short | An automated Design-Build-Test-Learn pipeline for enhanced microbial production of fine chemicals |
| title_sort | automated design-build-test-learn pipeline for enhanced microbial production of fine chemicals |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6123781/ https://www.ncbi.nlm.nih.gov/pubmed/30271948 http://dx.doi.org/10.1038/s42003-018-0076-9 |
| work_keys_str_mv | AT carbonellpablo anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT jervisadrianj anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT robinsonchristopherj anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT yancunyu anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT dunstanmark anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT swainstonneil anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT vinaixamaria anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT hollywoodkatherinea anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT currinandrew anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT rattraynicholasjw anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT taylorsandra anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT spiessreynard anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT sungrehana anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT williamsalanr anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT fellowsdonal anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT stanfordnataliej anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT mulherinpaul anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT lefeuvrerosalind anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT barranperdita anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT goodacreroyston anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT turnernicholasj anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT goblecarole anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT chengeorgeguoqiang anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT kelldouglasb anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT micklefieldjason anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT breitlingrainer anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT takanoeriko anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT faulonjeanloup anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT scruttonnigels anautomateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT carbonellpablo automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT jervisadrianj automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT robinsonchristopherj automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT yancunyu automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT dunstanmark automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT swainstonneil automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT vinaixamaria automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT hollywoodkatherinea automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT currinandrew automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT rattraynicholasjw automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT taylorsandra automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT spiessreynard automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT sungrehana automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT williamsalanr automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT fellowsdonal automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT stanfordnataliej automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT mulherinpaul automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT lefeuvrerosalind automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT barranperdita automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT goodacreroyston automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT turnernicholasj automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT goblecarole automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT chengeorgeguoqiang automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT kelldouglasb automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT micklefieldjason automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT breitlingrainer automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT takanoeriko automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT faulonjeanloup automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals AT scruttonnigels automateddesignbuildtestlearnpipelineforenhancedmicrobialproductionoffinechemicals |