Substrate Utilization by Suspension Cultures and Somatic Embryos of Daucus carota L. Measured by ¹³C NMR

Abstract: The uptake and utilization of sucrose by embryogenic suspension cultures of carrot (Daucus carota L.) growing in the presence of 2,4-D and by somatic embryos derived from these cultures was monitored using (13)C nuclear magnetic resonance. The exogeneously supplied sucrose was completely hydrolyzed before cell entry; glucose was taken up preferentially when the cells were cultured in the presence of 2,4-D, while glucose and fructose were utilized at similar rates by somatic embryos in the absence of 2,4-D. Bot… Show more

“…However, the C-1 peak was not detected when either 1-13 C-or 6-13 C-labeled glucose was used as the carbohydrate source. Second, the absence of the [4-13 C]malate peak in the [6][7][8][9][10][11][12][13] C]glucose experiment confirmed that 4-13 C resonance does not originate from the malate pool participating in the TCA cycle.…”

“…Peaks at 103.4 and 102.6 were not detected until 150 hs after perfusion with C-1-labeled glucose but increased continuously thereafter. [6][7][8][9][10][11][12][13] C]Glucan resonances are also observed to build up in the 1-13 C-labeled experiment. Similarly, a build up of the 1-13 C-labeled glucans is observed (Fig.…”

“…An increase in the ratio of [1-13 C]glucose ;:: ratio was observed in suspensions of yeast cells by Den Hollander et al [43]. Anomeric specificity of glucose uptake with both ; and : anomers 13 C]glucose resonance from sucrose [6]. Thus, synthesis of sucrose by the root cultures could lead to an increase in this resonance and hence cause a decrease in the ;:: ratio.…”

“…A combination of high-field NMR instruments and highly enriched 13 C precursors has led to broader applications of NMR to understanding several aspects of metabolism. Specifically, in plant cell suspensions, NMR spectroscopy has been utilized as a tool for biosynthetic studies [5], to monitor substrate utilization [6], and to study the metabolic changes in response to a perturbation [7]. NMR spectroscopy has been also applied to plant tissues to study glycolysis [8,9] and starch synthesis pathways [10] and to understand intracellular compartmentation and transport of metabolites [11].…”

In Vivo31P and Multilabel13C NMR Measurements for Evaluation of Plant Metabolic Pathways

“…However, the C-1 peak was not detected when either 1-13 C-or 6-13 C-labeled glucose was used as the carbohydrate source. Second, the absence of the [4-13 C]malate peak in the [6][7][8][9][10][11][12][13] C]glucose experiment confirmed that 4-13 C resonance does not originate from the malate pool participating in the TCA cycle.…”

“…Peaks at 103.4 and 102.6 were not detected until 150 hs after perfusion with C-1-labeled glucose but increased continuously thereafter. [6][7][8][9][10][11][12][13] C]Glucan resonances are also observed to build up in the 1-13 C-labeled experiment. Similarly, a build up of the 1-13 C-labeled glucans is observed (Fig.…”

“…An increase in the ratio of [1-13 C]glucose ;:: ratio was observed in suspensions of yeast cells by Den Hollander et al [43]. Anomeric specificity of glucose uptake with both ; and : anomers 13 C]glucose resonance from sucrose [6]. Thus, synthesis of sucrose by the root cultures could lead to an increase in this resonance and hence cause a decrease in the ;:: ratio.…”

“…A combination of high-field NMR instruments and highly enriched 13 C precursors has led to broader applications of NMR to understanding several aspects of metabolism. Specifically, in plant cell suspensions, NMR spectroscopy has been utilized as a tool for biosynthetic studies [5], to monitor substrate utilization [6], and to study the metabolic changes in response to a perturbation [7]. NMR spectroscopy has been also applied to plant tissues to study glycolysis [8,9] and starch synthesis pathways [10] and to understand intracellular compartmentation and transport of metabolites [11].…”

In Vivo31P and Multilabel13C NMR Measurements for Evaluation of Plant Metabolic Pathways

“…can be done with natural abundance 13 C NMR (25), enriched 13 C NMR (25-27) and 1 H NMR (28). This quantification includes both intracellular and extracellular levels, which can be determined separately by measurements of the medium and of the biomass (25,27). The fate of a particular 13 C enriched substrate is useful to label metabolic pathways, especially for systems in which the metabolic pathways are not elucidated completely.…”

In SituNMR Systems

Instrumentation of Biotechnological Processes