High-Resolution 13C Metabolic Flux Analysis
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High-resolution 13 C metabolic flux analysis
High-resolution 13C metabolic flux analysis. Nat Protocols. Vol14 2019. 2. Jang, Chen and Rabinowitz. Metabolomics and Isotope Tracing. Cell. 173 2018. 3. Rowe, Palsson and King.
Here, we present a protocol for 13C-MFA that incorporates recent advances in parallel labeling experiments, isotopic labeling measurements, and statistical analysis, as well
In this review, we will introduce the basics of 13 C-MFA and illustrate how 13 C-MFA has been applied via integration with metabolic engineering to identify and tackle the rate-limiting steps in
Long CP, Antoniewicz MR. “High-resolution 13C metabolic flux analysis”. Nature Protocols, 2019. Long CP, Antoniewicz MR. “Metabolic flux responses to deletion of 20 core enzymes reveal
- In vivo 2H/13C flux analysis in metabolism research
- A guide to 13 C metabolic flux analysis for the cancer biologist
- Improved 13C metabolic flux analysis in Escherichia coli
- A guide to 13C metabolic flux analysis for the cancer biologist
Remarkably, metabolic flux analysis (MFA) can use 13 C-labelled glucose as a tracer to determine the profiles of glucose-derived metabolites and further to assess metabolic
13 C metabolic flux analysis (13 C-MFA) has emerged as a forceful tool for quantifying in vivo metabolic pathway activity of different biological systems. This technology
High-resolution 13C metabolic flux analysis
Improved13 C metabolic flux analysis in Escherichia coli metabolism: application of a high-resolution MS (GC–EI–QTOF) for comprehensive assessment of MS/MS fragments Chris
13C metabolic flux analysis (MFA) is a powerful technology used to quantify all intracellular fluxes in the central metabolism of a microorganism. This is essential information for metabolic
In order to overcome this challenge, 13C Metabolic Flux Analysis (13C-MFA) has been continuously developed and widely applied to rigorously investigate cell metabolism and
13 C metabolic flux analysis (13 C-MFA) has emerged as a forceful tool for quantifying in vivo metabolic pathway activity of different biological systems. This technology plays an important role in understanding intracellular metabolism
13 C-constrained flux balancing analysis based on gas chromatography–mass spectrometry data is presented here as a simple and robust method for the estimation of
Metabolic flux analysis using 13 C-labeled substrates has become an important tool in metabolic engineering. It allows the detailed quantification of all intracellular fluxes in the
Here, we present a protocol for 13C-MFA that fl is the predominant technique used for determining intracellular fl incorporates recent advances in parallel labeling experiments, isotopic labeling
Using Multiple Tracers for 13 C Metabolic Flux Analysis
13 C labeling-based metabolic flux analysis (13 C-MFA) is a crucial technique for determining the dynamics of metabolic processes and offering quantitative information on the
Abstract. 13 C metabolic flux analysis (13 C-MFA) has emerged as a forceful tool for quantifying in vivo metabolic pathway activity of different biological systems. This technology plays an
13CFLUX2—high-performance software suite for 13C-metabolic flux analysis Bioinformatics , 29 ( 2013 ) , pp. 143 – 145 Crossref View in Scopus Google Scholar
13 C-constrained flux balancing analysis based on gas chromatography–mass spectrometry data is presented here as a simple and robust method for the estimation of
13 C metabolic flux analysis (MFA) has crystallized in the past two decades as the primary approach to quantify in vivo intracellular metabolic rates, that is, the fluxes
Here, we present a protocol for 13 C-MFA that incorporates recent advances in parallel labeling experiments, isotopic labeling measurements, and statistical analysis, as well as best practices
Stephanopoulos G (1999) Metabolic fluxes and metabolic engineering. Metab Eng 1:1–11 Moxley JF, Jewett MC, Antoniewicz MR et al (2009) Linking high-resolution metabolic flux phenotypes
High-resolution 13C metabolic flux analysis Authors. Keywords – Journal. Nature Protocols Volume 14, Issue 10, Pages 2856-2877 Publisher. Springer Science and Business Media LLC
We describe best practices in 13 C-MFA, highlight potential pitfalls and alternative approaches, and conclude with new developments that can further enhance our understanding
We describe best practices in 13 C-MFA, highlight potential pitfalls and alternative approaches, and conclude with new developments that can further enhance our understanding of cancer
Here we describe a protocol that is based on growing microbes on 13 C-labeled glucose and subsequent gas chromatography mass spectrometric detection of 13 C-patterns in protein-bound amino
High-Resolution 13C Metabolic Flux Analysis (High-Resolution 13C-MFA) is an advanced technique in systems biology that enables the precise investigation of cellular metabolism. This
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