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R G Ratcliffe

Showing results (11-20 of 35) with videos related to

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Oecologia|March 18, 2017
Urea: a nitrogen source for the aquatic resurrection plant Chamaegigas intrepidus DinterH Heilmeier, R G Ratcliffe, W Hartung
Journal of Experimental Botany|November 3, 2004
Metabolite fingerprinting and profiling in plants using NMRP Krishnan, N J Kruger, R G Ratcliffe
Plant Physiology|June 1, 1993
An in Vivo Nuclear Magnetic Resonance Investigation of Ion Transport in Maize (Zea mays) and Spartina anglica Roots during Exposure to High Salt ConcentrationsC. M. Spickett, N. Smirnoff, R. G. Ratcliffe
Journal of Biotechnology|February 16, 2000
Strategies for metabolic flux analysis in plants using isotope labellingA Roscher, N J Kruger, R G Ratcliffe
Plant Physiology|July 1, 1992
Metabolic Response of Maize Roots to Hyperosmotic Shock : An in VivoP Nuclear Magnetic Resonance StudyC M Spickett, N Smirnoff, R G Ratcliffe
Journal of Experimental Botany|December 6, 2011
Strategies for investigating the plant metabolic network with steady-state metabolic flux analysis: lessons from an Arabidopsis cell culture and other systemsN J Kruger, S K Masakapalli, R G Ratcliffe
Journal of Experimental Botany|August 16, 2000
Anoxia tolerance in the aquatic monocot Potamogeton pectinatus absence of oxygen stimulates elongation in association with an unusually large pasteur effectJ E Summers, R G Ratcliffe, M B Jackson
Essays in Biochemistry|January 1, 1983
NMR and the biochemistG R Moore, R G Ratcliffe, R J Williams
Planta|February 24, 2001
Fructose 2,6-bisphosphate activates pyrophosphate: fructose-6-phosphate 1-phosphotransferase and increases triose phosphate to hexose phosphate cycling in heterotrophic cellsA R Fernie, A Roscher, R G Ratcliffe, et al.
Yeast (Chichester, England)|August 1, 1993
Metabolic studies of a fructose-intolerant yeast by in vivo 31P-nuclear magnetic resonance spectroscopyT C Doyle, C M Spickett, I A Donaldson, et al.
Pageof 4

Showing results (11-20 of 35) with videos related to

Sort By:
Pageof 4
Oecologia|March 18, 2017
Urea: a nitrogen source for the aquatic resurrection plant Chamaegigas intrepidus DinterH Heilmeier, R G Ratcliffe, W Hartung
Journal of Experimental Botany|November 3, 2004
Metabolite fingerprinting and profiling in plants using NMRP Krishnan, N J Kruger, R G Ratcliffe
Plant Physiology|June 1, 1993
An in Vivo Nuclear Magnetic Resonance Investigation of Ion Transport in Maize (Zea mays) and Spartina anglica Roots during Exposure to High Salt ConcentrationsC. M. Spickett, N. Smirnoff, R. G. Ratcliffe
Journal of Biotechnology|February 16, 2000
Strategies for metabolic flux analysis in plants using isotope labellingA Roscher, N J Kruger, R G Ratcliffe
Plant Physiology|July 1, 1992
Metabolic Response of Maize Roots to Hyperosmotic Shock : An in VivoP Nuclear Magnetic Resonance StudyC M Spickett, N Smirnoff, R G Ratcliffe
Journal of Experimental Botany|December 6, 2011
Strategies for investigating the plant metabolic network with steady-state metabolic flux analysis: lessons from an Arabidopsis cell culture and other systemsN J Kruger, S K Masakapalli, R G Ratcliffe
Journal of Experimental Botany|August 16, 2000
Anoxia tolerance in the aquatic monocot Potamogeton pectinatus absence of oxygen stimulates elongation in association with an unusually large pasteur effectJ E Summers, R G Ratcliffe, M B Jackson
Essays in Biochemistry|January 1, 1983
NMR and the biochemistG R Moore, R G Ratcliffe, R J Williams
Planta|February 24, 2001
Fructose 2,6-bisphosphate activates pyrophosphate: fructose-6-phosphate 1-phosphotransferase and increases triose phosphate to hexose phosphate cycling in heterotrophic cellsA R Fernie, A Roscher, R G Ratcliffe, et al.
Yeast (Chichester, England)|August 1, 1993
Metabolic studies of a fructose-intolerant yeast by in vivo 31P-nuclear magnetic resonance spectroscopyT C Doyle, C M Spickett, I A Donaldson, et al.
Pageof 4