Just passing through: Deploying aquaporins in microbial cell factories

As microbial membranes are naturally impermeable to even the smallest biomolecules, transporter proteins are physiologically essential for normal cell functioning. This makes transporters a key target area for engineering enhanced cell factories. As part of the wider cellular transportome, aquaporin...

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Veröffentlicht in:	Biotechnology progress 2024-11, Vol.40 (6), p.e3497-n/a
Hauptverfasser:	Jenkins Sánchez, Liam Richard, Sips, Lobke Maria, Van Bogaert, Inge Noëlle Adriënne
Format:	Artikel
Sprache:	eng
Schlagworte:	aquaporin Aquaporins Aquaporins - metabolism Bacteria - genetics Bacteria - metabolism Biomolecules Biotechnology Cell viability Factories glycerol facilitator industrial biotechnology Industrial engineering membrane transport Microorganisms Organic acids Plant layout Polyols Protein engineering Protein transport Proteins Raw materials Solutes Yeasts
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creator	Jenkins Sánchez, Liam Richard Sips, Lobke Maria Van Bogaert, Inge Noëlle Adriënne
description	As microbial membranes are naturally impermeable to even the smallest biomolecules, transporter proteins are physiologically essential for normal cell functioning. This makes transporters a key target area for engineering enhanced cell factories. As part of the wider cellular transportome, aquaporins (AQPs) are responsible for transporting small polar solutes, encompassing many compounds which are of great interest for industrial biotechnology, including cell feedstocks, numerous commercially relevant polyols and even weak organic acids. In this review, examples of cell factory engineering by targeting AQPs are presented. These AQP modifications aid in redirecting carbon fluxes and boosting bioconversions either by enhanced feedstock uptake, improved intermediate retention, increasing product export into the media or superior cell viability against stressors with applications in both bacterial and yeast production platforms. Additionally, the future potential for AQP deployment and targeting is discussed, showcasing hurdles and considerations of this strategy as well as recent advances and future directions in the field. By leveraging the natural diversity of AQPs and breakthroughs in channel protein engineering, these transporters are poised to be promising tools capable of enhancing a wide variety of biotechnological processes.
doi_str_mv	10.1002/btpr.3497
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subjects	aquaporin Aquaporins Aquaporins - metabolism Bacteria - genetics Bacteria - metabolism Biomolecules Biotechnology Cell viability Factories glycerol facilitator industrial biotechnology Industrial engineering membrane transport Microorganisms Organic acids Plant layout Polyols Protein engineering Protein transport Proteins Raw materials Solutes Yeasts
title	Just passing through: Deploying aquaporins in microbial cell factories
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