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A A de Graaf

Showing results (1-10 of 39) with videos related to

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Biotechnology and Bioengineering|July 5, 1997
Bidirectional reaction steps in metabolic networks: I. Modeling and simulation of carbon isotope labeling experimentsW Wiechert, A A de Graaf
Advances in Biochemical Engineering/Biotechnology|January 1, 1996
In vivo stationary flux analysis by 13C labeling experimentsW Wiechert, A A de Graaf
Analytical Biochemistry|April 1, 1993
Use of in vivo 13C nuclear magnetic resonance spectroscopy to follow sugar uptake in Zymomonas mobilisS M Schoberth, A A de Graaf
Magnetic Resonance in Medicine|August 1, 1990
Improved quantification of in vivo 1H NMR spectra by optimization of signal acquisition and processing and by incorporation of prior knowledge into the spectral fittingA A de Graaf, W M Bovée
Advances in Biochemical Engineering/Biotechnology|January 1, 1996
Reaction engineering methods to study intracellular metabolite concentrationsD Weuster-Botz, A A de Graaf
Biological Chemistry|November 15, 2000
Pathway analysis and metabolic engineering in Corynebacterium glutamicumH Sahm, L Eggeling, A A de Graaf
Advances in Biochemical Engineering/Biotechnology|January 31, 2002
Metabolic engineering for L-lysine production by Corynebacterium glutamicumA A de Graaf, L Eggeling, H Sahm
Analytical Biochemistry|February 15, 1997
Accurate determination of 13C enrichments in nonprotonated carbon atoms of isotopically enriched amino acids by 1H nuclear magnetic resonanceV F Wendisch, A A de Graaf, H Sahm
Biotechnology and Bioengineering|November 24, 1999
Bidirectional reaction steps in metabolic networks: IV. Optimal design of isotopomer labeling experimentsM Möllney, W Wiechert, D Kownatzki, et al.
European Journal of Biochemistry|June 10, 2000
Kinetic properties of the glucose-6-phosphate and 6-phosphogluconate dehydrogenases from Corynebacterium glutamicum and their application for predicting pentose phosphate pathway flux in vivoB Moritz, K Striegel, A A De Graaf, et al.
Pageof 4

Showing results (1-10 of 39) with videos related to

Sort By:
Pageof 4
Biotechnology and Bioengineering|July 5, 1997
Bidirectional reaction steps in metabolic networks: I. Modeling and simulation of carbon isotope labeling experimentsW Wiechert, A A de Graaf
Advances in Biochemical Engineering/Biotechnology|January 1, 1996
In vivo stationary flux analysis by 13C labeling experimentsW Wiechert, A A de Graaf
Analytical Biochemistry|April 1, 1993
Use of in vivo 13C nuclear magnetic resonance spectroscopy to follow sugar uptake in Zymomonas mobilisS M Schoberth, A A de Graaf
Magnetic Resonance in Medicine|August 1, 1990
Improved quantification of in vivo 1H NMR spectra by optimization of signal acquisition and processing and by incorporation of prior knowledge into the spectral fittingA A de Graaf, W M Bovée
Advances in Biochemical Engineering/Biotechnology|January 1, 1996
Reaction engineering methods to study intracellular metabolite concentrationsD Weuster-Botz, A A de Graaf
Biological Chemistry|November 15, 2000
Pathway analysis and metabolic engineering in Corynebacterium glutamicumH Sahm, L Eggeling, A A de Graaf
Advances in Biochemical Engineering/Biotechnology|January 31, 2002
Metabolic engineering for L-lysine production by Corynebacterium glutamicumA A de Graaf, L Eggeling, H Sahm
Analytical Biochemistry|February 15, 1997
Accurate determination of 13C enrichments in nonprotonated carbon atoms of isotopically enriched amino acids by 1H nuclear magnetic resonanceV F Wendisch, A A de Graaf, H Sahm
Biotechnology and Bioengineering|November 24, 1999
Bidirectional reaction steps in metabolic networks: IV. Optimal design of isotopomer labeling experimentsM Möllney, W Wiechert, D Kownatzki, et al.
European Journal of Biochemistry|June 10, 2000
Kinetic properties of the glucose-6-phosphate and 6-phosphogluconate dehydrogenases from Corynebacterium glutamicum and their application for predicting pentose phosphate pathway flux in vivoB Moritz, K Striegel, A A De Graaf, et al.
Pageof 4