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NADPH-Auxotrophic E. coli: A Sensor Strain for Testing in Vivo Regeneration of NADPH

Insufficient rate of NADPH regeneration often limits the activity of biosynthetic pathways. Expression of NADPH-regenerating enzymes is commonly used to address this problem and increase cofactor availability. Here, we construct an Escherichia coli NADPH-auxotroph strain, which is deleted in all rea...

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Published in:	ACS synthetic biology 2018-12, Vol.7 (12), p.2742-2749
Main Authors:	Lindner, Steffen N, Ramirez, Liliana Calzadiaz, Krüsemann, Jan L, Yishai, Oren, Belkhelfa, Sophia, He, Hai, Bouzon, Madeleine, Döring, Volker, Bar-Even, Arren
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creator	Lindner, Steffen N Ramirez, Liliana Calzadiaz Krüsemann, Jan L Yishai, Oren Belkhelfa, Sophia He, Hai Bouzon, Madeleine Döring, Volker Bar-Even, Arren
description	Insufficient rate of NADPH regeneration often limits the activity of biosynthetic pathways. Expression of NADPH-regenerating enzymes is commonly used to address this problem and increase cofactor availability. Here, we construct an Escherichia coli NADPH-auxotroph strain, which is deleted in all reactions that produce NADPH with the exception of 6-phosphogluconate dehydrogenase. This strain grows on a minimal medium only if gluconate is added as NADPH source. When gluconate is omitted, the strain serves as a “biosensor” for the capability of enzymes to regenerate NADPH in vivo. We show that the NADPH-auxotroph strain can be used to quantitatively assess different NADPH-regenerating enzymes and provide essential information on expression levels and concentrations of reduced substrates required to support optimal NADPH production rate. The NADPH-auxotroph strain thus serves as an effective metabolic platform for evaluating NADPH regeneration within the cellular context.
doi_str_mv	10.1021/acssynbio.8b00313
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title	NADPH-Auxotrophic E. coli: A Sensor Strain for Testing in Vivo Regeneration of NADPH
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