Increased NADPH concentration obtained by metabolic engineering of the pentose phosphate pathway in <i>Aspergillus niger</i>

Poulsen, Bjarne Rask; Nøhr, Jane; Douthwaite, Stephen; Hansen, Lulu Anne; Iversen, Jens; Visser, Jaap; Ruijter, George J. G.

doi:10.1111/j.1742-4658.2005.04554.x

Cited by 58 publications

(43 citation statements)

References 49 publications

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“…Based on these findings, it was concluded that the accumulation of erythritol was due to excess activity of the PP pathway in excess compared with the cellular demand for the pathway intermediates (Röhr et al, 1987). Recently, Poulsen et al (2005) have also observed high PP pathway enzyme activities during stationary phase in A. niger. In the present work, the production yields of erythritol and arabitol increased during oxygen limitation when the biomass production was low and the production of CO 2 was high.…”

Section: Influence Of the Oxygen Availabilitymentioning

confidence: 90%

“…For each glucose-6-phosphate entering the PP pathway two NADP molecules are reduced by the enzymes glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase. When nitrate is used as nitrogen source, an increase of these two enzyme activities has been noticed in A. nidulans and A. niger (Habison et al, 1983;Hankinson and Cove, 1972;Kinghorn and Unkles, 1994;Poulsen et al, 2005;Singh et al, 1988). More specifically, Poulsen et al (2005) have shown that, in A. niger, the activities of three enzymes belonging to the PP pathway increase when nitrate is added to the medium: glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, and transketolase.…”

Section: Influence Of the Nitrogen Sourcementioning

confidence: 92%

“…When nitrate is used as nitrogen source, an increase of these two enzyme activities has been noticed in A. nidulans and A. niger (Habison et al, 1983;Hankinson and Cove, 1972;Kinghorn and Unkles, 1994;Poulsen et al, 2005;Singh et al, 1988). More specifically, Poulsen et al (2005) have shown that, in A. niger, the activities of three enzymes belonging to the PP pathway increase when nitrate is added to the medium: glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, and transketolase. This phenomenon would most likely result in an increased flux through the PP pathway (Pedersen et al, 1999) and could explain the increase of the erythritol and xylitol production when nitrate is used as nitrogen source, as these two compounds are synthesized from intermediates of the PP pathway.…”

Section: Influence Of the Nitrogen Sourcementioning

confidence: 92%

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Polyol synthesis inAspergillus niger: Influence of oxygen availability, carbon and nitrogen sources on the metabolism

Diano¹,

Bekker‐Jensen²,

Dynesen

et al. 2006

Biotechnol. Bioeng.

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Polyol production has been studied in Aspergillus niger under different conditions. Fermentations have been run using high concentration of glucose or xylose as carbon source and ammonium or nitrate as nitrogen source. The growth of biomass, as freely dispersed hyphae, led to an increase of medium viscosity and hereby a decrease in mass transfer, especially oxygen transfer. The consequence was a decrease in DOT and the occurrence of a switch between fully aerobic conditions and oxygen-limited conditions. Metabolite quantification showed that polyols were the main metabolic products formed and represented up to 22% of the carbon consumed in oxygen-limited conditions. The polyol concentration and the polyol pattern depended strongly on the environmental conditions. This is due to a complex regulation of polyol production and to the fact that each polyol can fulfill different functions. In this study, erythritol, xylitol, and arabitol were produced as carbon storage compounds when the flux through the PP pathway exceeded the need in ribulose-5-phosphate for the biomass synthesis. Glycerol, erythritol, and xylitol seem to be involved in osmoregulation. Mannitol was produced when the catabolic reduction of charge was high. Its production involves the enzyme NAD-dependent mannitol-1-phosphate dehydrogenase and seems to be the main cytosolic route for the NADH reoxidation during oxygen limitation.

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Section: Influence Of the Oxygen Availabilitymentioning

confidence: 90%

Section: Influence Of the Nitrogen Sourcementioning

confidence: 92%

Section: Influence Of the Nitrogen Sourcementioning

confidence: 92%

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Polyol synthesis inAspergillus niger: Influence of oxygen availability, carbon and nitrogen sources on the metabolism

Diano¹,

Bekker‐Jensen²,

Dynesen

et al. 2006

Biotechnol. Bioeng.

View full text Add to dashboard Cite

show abstract

“…Increasing the carbon flux through the PP pathway is often pursued (Chin et al, 2009;Lim et al, 2002;Poulsen et al, 2005;Skorupa Parachin et al, 2009) or proposed (Walton and Stewart, 2004) as a strategy to increase the efficiency of NADPH-dependent reactions in whole-cell systems. Our results indicate that while the Dpgi mutation improves the Y PPG (2.6-fold), this benefit is counterbalanced by a decrease in the specific in vivo activity of the biocatalyst (Fig.…”

Section: Discussionmentioning

confidence: 99%

Improved product‐per‐glucose yields in P450‐dependent propane biotransformations using engineered Escherichia coli

Fasan

Crook

Peters

et al. 2010

Biotech & Bioengineering

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P450-dependent biotransformations in Escherichia coli are attractive for the selective oxidation of organic molecules using mild and sustainable procedures. The overall efficiency of these processes, however, relies on how effectively the NAD(P)H cofactors derived from oxidation of the carbon source are utilized inside the cell to support the heterologous P450-catalyzed reaction. In this work, we investigate the use of metabolic and protein engineering to enhance the product-per-glucose yield (Y(PPG)) in whole-cell reactions involving a proficient NADPH-dependent P450 propane monooxygenase prepared by directed evolution [P450(PMO)R2; Fasan et al. (2007); Angew Chem Int Ed 46:8414-8418]. Our studies revealed that the metabolism of E. coli (W3110) is able to support only a modest propanol: glucose molar ratio (YPPG ~ 0.5) under aerobic, nongrowing conditions. By altering key processes involved in NAD(P)H metabolism of the host, considerable improvements of this ratio could be achieved. A metabolically engineered E. coli strain featuring partial inactivation of the endogenous respiratory chain (Δndh) combined with removal of two fermentation pathways (ΔadhE, Δldh) provided the highest Y(PPG) (1.71) among the strains investigated, enabling a 230% more efficient utilization of the energy source (glucose) in the propane biotransformation compared to the native E. coli strain. Using an engineered P450(PMO)R2 variant which can utilize NADPH and NADH with equal efficiency, we also established that dual cofactor specificity of the P450 enzyme can provide an appreciable improvement in Y(PPG). Kinetic analyses suggest, however, that much more favorable parameters (K(M), k(cat)) for the NADH-driven reaction are required to effectively compete with the host's endogenous NADH-utilizing enzymes. Overall, the metabolic/protein engineering strategies described here can be of general value for improving the performance of NAD(P)H-dependent whole-cell biotransformations in E. coli.

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“…Although both strategies have been applied successfully in various prokaryotes, they are not effective in every organism [215,216]. Moreover, as mentioned above, G6PDH is a key enzyme not only for control of the PPP flux but also for control of the ED pathway.…”

Section: Introductionmentioning

confidence: 99%

Thermococcus kodakarensis : the key to affordable biohydrogen production

Spaans¹

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Increased NADPH concentration obtained by metabolic engineering of the pentose phosphate pathway in Aspergillus niger

Cited by 58 publications

References 49 publications

Polyol synthesis inAspergillus niger: Influence of oxygen availability, carbon and nitrogen sources on the metabolism

Polyol synthesis inAspergillus niger: Influence of oxygen availability, carbon and nitrogen sources on the metabolism

Improved product‐per‐glucose yields in P450‐dependent propane biotransformations using engineered Escherichia coli

Thermococcus kodakarensis : the key to affordable biohydrogen production

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