TY - JOUR
T1 - A roadmap for interpreting 13C metabolite labeling patterns from cells
AU - Buescher, Joerg M.
AU - Antoniewicz, Maciek R.
AU - Boros, Laszlo G.
AU - Burgess, Shawn C.
AU - Brunengraber, Henri
AU - Clish, Clary B.
AU - DeBerardinis, Ralph J.
AU - Feron, Olivier
AU - Frezza, Christian
AU - Ghesquiere, Bart
AU - Gottlieb, Eyal
AU - Hiller, Karsten
AU - Jones, Russell G.
AU - Kamphorst, Jurre J.
AU - Kibbey, Richard G.
AU - Kimmelman, Alec C.
AU - Locasale, Jason W.
AU - Lunt, Sophia Y.
AU - Maddocks, Oliver D.K.
AU - Malloy, Craig
AU - Metallo, Christian M.
AU - Meuillet, Emmanuelle J.
AU - Munger, Joshua
AU - Nöh, Katharina
AU - Rabinowitz, Joshua D.
AU - Ralser, Markus
AU - Sauer, Uwe
AU - Stephanopoulos, Gregory
AU - St-Pierre, Julie
AU - Tennant, Daniel A.
AU - Wittmann, Christoph
AU - Vander Heiden, Matthew G.
AU - Vazquez, Alexei
AU - Vousden, Karen
AU - Young, Jamey D.
AU - Zamboni, Nicola
AU - Fendt, Sarah Maria
N1 - Publisher Copyright:
© 2015 Elsevier Ltd.
PY - 2015/8/1
Y1 - 2015/8/1
N2 - Measuring intracellular metabolism has increasingly led to important insights in biomedical research. 13C tracer analysis, although less information-rich than quantitative 13C flux analysis that requires computational data integration, has been established as a time-efficient method to unravel relative pathway activities, qualitative changes in pathway contributions, and nutrient contributions. Here, we review selected key issues in interpreting 13C metabolite labeling patterns, with the goal of drawing accurate conclusions from steady state and dynamic stable isotopic tracer experiments.
AB - Measuring intracellular metabolism has increasingly led to important insights in biomedical research. 13C tracer analysis, although less information-rich than quantitative 13C flux analysis that requires computational data integration, has been established as a time-efficient method to unravel relative pathway activities, qualitative changes in pathway contributions, and nutrient contributions. Here, we review selected key issues in interpreting 13C metabolite labeling patterns, with the goal of drawing accurate conclusions from steady state and dynamic stable isotopic tracer experiments.
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U2 - 10.1016/j.copbio.2015.02.003
DO - 10.1016/j.copbio.2015.02.003
M3 - Review article
C2 - 25731751
AN - SCOPUS:84923596826
SN - 0958-1669
VL - 34
SP - 189
EP - 201
JO - Current Opinion in Biotechnology
JF - Current Opinion in Biotechnology
ER -