Bookedited by Martine Dieuaide-Noubhani, Ana Paula Alonso.
Contents:
Application of Metabolic Flux Analysis to Plants
Metabolic Network Reconstruction and Their Topological Analysis
14C pulse Labeling to Estimate External Fluxes and Turnovers in Primary Metabolism
Optimization of Steady-state 13C-labeling Experiments for Metabolic Flux Analysis
Quantification of 13C Enrichments and Isotopomer Abundances for Metabolic Flux analysis using 1D NMR Spectroscopy
Analysis of Proteinogenic Amino Acid and Starch Labeling by 2D NMR
Analysis of Kinetic Labeling of Amino Acids and Organic Acids by GC-MS
Quantifying 13C-labeling in Free Sugars and Starch by GC-MS
Liquid Chromatography Tandem Mass Spectrometry for Measuring 13C-labeling in Intermediates of the Glycolysis and Pentose-phosphate Pathway
In Vivo NMR for 13C metabolic? Flux Analysis
Steady State and Instationary Modeling of Proteinogenic and Free Amino Acid Isotopomers for Flux Quantification
Isotopically Nonstationary MFA (INST-MFA) of Autotrophic Metabolism
Simulating Labeling to Estimate Kinetic Parameters for Flux Control Analysis
High-throughput Data Pipelines for Metabolic Flux Analysis in Plants
Analysis of Enzyme Activities
Analytical Kinetic Modeling: A Practical Procedure
Flux Balance Analysis as an Alternative Method to Estimate Fluxes Without Labeling
Flux Variability Analysis: Application to Developing Oilseed Rape Embryos using Toolboxes for Constraint-Based Modeling
Plant Genome-Scale Modeling and Implementation
34S and 15N Labelling to Model S and N Flux in Plants and Determine the Different Components of N and S use Efficiency
Ecophysiological Process-based Model to Simulate Carbon Fluxes in Plants.