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Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors

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Zeitschriftentitel: Chemical Engineering & Technology
Personen und Körperschaften: Peschke, Theo, Bitterwolf, Patrick, Rabe, Kersten S., Niemeyer, Christof M.
In: Chemical Engineering & Technology, 42, 2019, 10, S. 2009-2017
Format: E-Article
Sprache: Englisch
veröffentlicht:
Wiley
Schlagwörter:
Industrial and Manufacturing Engineering
General Chemical Engineering
General Chemistry
author_facet Peschke, Theo
Bitterwolf, Patrick
Rabe, Kersten S.
Niemeyer, Christof M.
Peschke, Theo
Bitterwolf, Patrick
Rabe, Kersten S.
Niemeyer, Christof M.
author Peschke, Theo
Bitterwolf, Patrick
Rabe, Kersten S.
Niemeyer, Christof M.
spellingShingle Peschke, Theo
Bitterwolf, Patrick
Rabe, Kersten S.
Niemeyer, Christof M.
Chemical Engineering & Technology
Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors
Industrial and Manufacturing Engineering
General Chemical Engineering
General Chemistry
author_sort peschke, theo
spelling Peschke, Theo Bitterwolf, Patrick Rabe, Kersten S. Niemeyer, Christof M. 0930-7516 1521-4125 Wiley Industrial and Manufacturing Engineering General Chemical Engineering General Chemistry http://dx.doi.org/10.1002/ceat.201900073 <jats:title>Abstract</jats:title><jats:p>The industrial implementation of enzymes in flow biocatalysis microreactors is expected to be essential for the emergence of a bio‐based circular economy. Major challenges concern the efficient immobilization of delicate enzymes inside miniaturized reactors without compromising their catalytic activity. We describe the exploitation of the widely used His‐tag system in a microfluidic packed‐bed reactor that contains ketoreductase‐functionalized magnetic beads. In a continuous process, these reactors produced highly stereoselective (<jats:italic>R</jats:italic>)‐configured alcohols (d.r. 99:1) with an average conversion of &gt; 90 % for more than 4 days. We believe that such miniaturized flow reactors can be of great utility for future sustainable production processes.</jats:p> Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors Chemical Engineering & Technology
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title Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors
title_unstemmed Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors
title_full Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors
title_fullStr Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors
title_full_unstemmed Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors
title_short Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors
title_sort self‐immobilizing oxidoreductases for flow biocatalysis in miniaturized packed‐bed reactors
topic Industrial and Manufacturing Engineering
General Chemical Engineering
General Chemistry
url http://dx.doi.org/10.1002/ceat.201900073
publishDate 2019
physical 2009-2017
description <jats:title>Abstract</jats:title><jats:p>The industrial implementation of enzymes in flow biocatalysis microreactors is expected to be essential for the emergence of a bio‐based circular economy. Major challenges concern the efficient immobilization of delicate enzymes inside miniaturized reactors without compromising their catalytic activity. We describe the exploitation of the widely used His‐tag system in a microfluidic packed‐bed reactor that contains ketoreductase‐functionalized magnetic beads. In a continuous process, these reactors produced highly stereoselective (<jats:italic>R</jats:italic>)‐configured alcohols (d.r. 99:1) with an average conversion of &gt; 90 % for more than 4 days. We believe that such miniaturized flow reactors can be of great utility for future sustainable production processes.</jats:p>
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author Peschke, Theo, Bitterwolf, Patrick, Rabe, Kersten S., Niemeyer, Christof M.
author_facet Peschke, Theo, Bitterwolf, Patrick, Rabe, Kersten S., Niemeyer, Christof M., Peschke, Theo, Bitterwolf, Patrick, Rabe, Kersten S., Niemeyer, Christof M.
author_sort peschke, theo
container_issue 10
container_start_page 2009
container_title Chemical Engineering & Technology
container_volume 42
description <jats:title>Abstract</jats:title><jats:p>The industrial implementation of enzymes in flow biocatalysis microreactors is expected to be essential for the emergence of a bio‐based circular economy. Major challenges concern the efficient immobilization of delicate enzymes inside miniaturized reactors without compromising their catalytic activity. We describe the exploitation of the widely used His‐tag system in a microfluidic packed‐bed reactor that contains ketoreductase‐functionalized magnetic beads. In a continuous process, these reactors produced highly stereoselective (<jats:italic>R</jats:italic>)‐configured alcohols (d.r. 99:1) with an average conversion of &gt; 90 % for more than 4 days. We believe that such miniaturized flow reactors can be of great utility for future sustainable production processes.</jats:p>
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imprint Wiley, 2019
imprint_str_mv Wiley, 2019
institution DE-Gla1, DE-Zi4, DE-15, DE-Pl11, DE-Rs1, DE-105, DE-14, DE-Ch1, DE-L229, DE-D275, DE-Bn3, DE-Brt1, DE-D161
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spelling Peschke, Theo Bitterwolf, Patrick Rabe, Kersten S. Niemeyer, Christof M. 0930-7516 1521-4125 Wiley Industrial and Manufacturing Engineering General Chemical Engineering General Chemistry http://dx.doi.org/10.1002/ceat.201900073 <jats:title>Abstract</jats:title><jats:p>The industrial implementation of enzymes in flow biocatalysis microreactors is expected to be essential for the emergence of a bio‐based circular economy. Major challenges concern the efficient immobilization of delicate enzymes inside miniaturized reactors without compromising their catalytic activity. We describe the exploitation of the widely used His‐tag system in a microfluidic packed‐bed reactor that contains ketoreductase‐functionalized magnetic beads. In a continuous process, these reactors produced highly stereoselective (<jats:italic>R</jats:italic>)‐configured alcohols (d.r. 99:1) with an average conversion of &gt; 90 % for more than 4 days. We believe that such miniaturized flow reactors can be of great utility for future sustainable production processes.</jats:p> Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors Chemical Engineering & Technology
spellingShingle Peschke, Theo, Bitterwolf, Patrick, Rabe, Kersten S., Niemeyer, Christof M., Chemical Engineering & Technology, Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors, Industrial and Manufacturing Engineering, General Chemical Engineering, General Chemistry
title Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors
title_full Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors
title_fullStr Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors
title_full_unstemmed Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors
title_short Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors
title_sort self‐immobilizing oxidoreductases for flow biocatalysis in miniaturized packed‐bed reactors
title_unstemmed Self‐Immobilizing Oxidoreductases for Flow Biocatalysis in Miniaturized Packed‐Bed Reactors
topic Industrial and Manufacturing Engineering, General Chemical Engineering, General Chemistry
url http://dx.doi.org/10.1002/ceat.201900073