Beckley K. Nfor scite author profile

The key to successful and efficient protein purification is the selection of the most appropriate purification techniques and their combination in a logical way to obtain the desired purification in the minimum number of steps. However, the rationalization of protein purification process development is faced with a number of challenges. In this paper, the challenges in protein purification process development are captured. The state-ofthe-art in protein purification process synthesis and design is reviewed and the strengths and weaknesses of the current strategies highlighted. Finally, views on the future directions of protein purification process development are presented.

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Metabolic flux analysis of a glycerol-overproducingSaccharomyces cerevisiaestrain based on GC-MS, LC-MS and NMR-derived¹³C-labelling data

Kleijn¹,

Geertman²,

Nfor³

et al. 2007

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This study focuses on unravelling the carbon and redox metabolism of a previously developed glycerol-overproducing Saccharomyces cerevisiae strain with deletions in the structural genes encoding triosephosphate isomerase (TPI1), the external mitochondrial NADH dehydrogenases (NDE1 and NDE2) and the respiratory chain-linked glycerol-3-phosphate dehydrogenase (GUT2). Two methods were used for analysis of metabolic fluxes: metabolite balancing and (13)C-labelling-based metabolic flux analysis. The isotopic enrichment of intracellular primary metabolites was measured both directly (liquid chromatography-MS) and indirectly through proteinogenic amino acids (nuclear magnetic resonance and gas chromatography-MS). Because flux sensitivity around several important metabolic nodes proved to be dependent on the applied technique, the combination of the three (13)C quantification techniques generated the most accurate overall flux pattern. When combined, the measured conversion rates and (13)C-labelling data provided evidence that a combination of assimilatory metabolism and pentose phosphate pathway activity diverted some of the carbon away from glycerol formation. Metabolite balancing indicated that this results in excess cytosolic NADH, suggesting the presence of a cytosolic NADH sink in addition to those that were deleted. The exchange flux of four-carbon dicarboxylic acids across the mitochondrial membrane, as measured by the (13)C-labelling data, supports a possible role of a malate/aspartate or malate/oxaloacetate redox shuttle in the transfer of these redox equivalents from the cytosol to the mitochondrial matrix.

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Beckley K. Nfor

High-throughput isotherm determination and thermodynamic modeling of protein adsorption on mixed mode adsorbents

Rational and systematic protein purification process development: the next generation

pH-gradient ion-exchange chromatography: An analytical tool for design and optimization of protein separations

Design strategies for integrated protein purification processes: challenges, progress and outlook

Metabolic flux analysis of a glycerol-overproducingSaccharomyces cerevisiaestrain based on GC-MS, LC-MS and NMR-derived¹³C-labelling data

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About

Beckley K. Nfor

High-throughput isotherm determination and thermodynamic modeling of protein adsorption on mixed mode adsorbents

Rational and systematic protein purification process development: the next generation

pH-gradient ion-exchange chromatography: An analytical tool for design and optimization of protein separations

Design strategies for integrated protein purification processes: challenges, progress and outlook

Metabolic flux analysis of a glycerol-overproducingSaccharomyces cerevisiaestrain based on GC-MS, LC-MS and NMR-derived13C-labelling data

Contact Info

Product

Resources

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Metabolic flux analysis of a glycerol-overproducingSaccharomyces cerevisiaestrain based on GC-MS, LC-MS and NMR-derived¹³C-labelling data