|
Title |
Model type |
Model components |
Protein
|
Metabolite
|
RNA
|
Catalysis
|
Unimolecular
|
Bimolecular (interactions)
|
| Quantitative reaction model |
| Nikolaev 2019 |
 |
Systems NMR: single-sample quantification of RNA, proteins and metabolites for biomolecular network analysis |
ODE |
• |
• |
• |
• |
• |
• |
| Semenov 2016 |
 |
Autocatalytic, bistable, oscillatory networks of biologically relevant organic reactions // (not only NMR data) |
ODE |
|
• |
|
• |
|
|
| MRC special issue 2016 |
 |
Reaction monitoring using NMR |
(editorial) |
|
• |
|
• |
|
|
| Thongwichian 2015 |
 |
A Multiplexed NMR-Reporter Approach to Measure Cellular Kinase and Phosphatase Activities in Real-Time |
ODE |
• |
|
|
• |
|
|
| Lerche 2015 |
 |
NMR insights into the inner workings of living cells |
(review) |
|
• |
|
• |
|
|
| Rosenthal 2015 |
 |
The use of ene adducts to study and engineer enoyl-thioester reductases |
ODE |
|
• |
|
• |
|
|
| Meier, 2014 |
 |
Simultaneous Determination of Binding Constants for Multiple Carbohydrate Hosts in Complex Mixtures |
analytical |
|
• |
|
|
|
• |
| Theillet 2013 |
 |
Site-specific NMR mapping and time-resolved monitoring of serine and threonine phosphorylation in reconstituted kinase reactions and mammalian cell extracts |
ODE |
• |
|
|
• |
|
|
| Cordier, 2012 |
 |
Ordered Phosphorylation Events in Two Independent Cascades of the PTEN C‐tail Revealed by NMR |
analytical |
• |
|
|
• |
|
|
| Eicher, 2012 |
 |
Determining Enzyme Kinetics for Systems Biology with Nuclear Magnetic Resonance Spectroscopy |
analytical |
|
• |
|
• |
|
|
| Theillet 2012 |
 |
Cell signaling, post-translational protein modifications and NMR spectroscopy |
(review) |
• |
|
|
• |
|
|
| Balbach 1996 |
 |
Protein Folding Monitored at Individual Residues During a Two-Dimensional NMR Experiment |
ODE |
• |
|
|
|
• |
|
| xxx |
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xxx |
|
|
|
|
|
|
|
| Quantitative, but only few reactions |
| Sekhar, 2018 |
 |
Conserved conformational selection mechanism of Hsp70 chaperone-substrate interactions |
analytical |
• |
|
|
|
• |
• |
| Hoffmann-Thoms 2013 |
 |
Initiation of Phage Infection by Partial Unfolding and Prolyl Isomerization |
analytical |
• |
|
|
|
• |
• |
| Harris, 2013 |
 |
Hyperpolarized 13C NMR studies of glucose metabolism in living breast cancer cell cultures |
analytical |
|
• |
|
• |
|
|
| Maltsev 2013 |
 |
Site-Specific Interaction between α-Synuclein and Membranes Probed by NMR-Observed Methionine Oxidation Rates |
ODE |
• |
|
|
• |
|
|
| Gasmi-Seabrook 2010 |
 |
Real-time NMR Study of Guanine Nucleotide Exchange and Activation of RhoA by PDZ-RhoGEF |
ODE |
• |
|
|
|
• |
|
| W/o reaction model |
| Limatola 2018 |
 |
Time-Resolved NMR Analysis of Proteolytic α-Synuclein Processing in vitro and in cellulo |
|
• |
|
|
• |
|
|
| Smith, 2014 |
 |
Integrated RAS Signaling Defined by Parallel NMR Detection of Effectors and Regulators |
|
• |
• |
|
• |
|
• |
| Meier, 2014 |
 |
Hyperpolarized NMR probes for biological assays |
(review) |
|
• |
|
• |
|
|
| Xue 2014 |
 |
New generation NMR bioreactor coupled with high-resolution NMR spectroscopy leads to novel discoveries in Moorella thermoacetica metabolic profiles |
|
|
• |
|
• |
|
|
| Rose 2013 |
 |
Quantitative NMR analysis of Erk activity and inhibition by U0126 in a panel of patient-derived colorectal cancer cell lines |
|
• |
|
|
• |
|
|
| Smith 2013 |
 |
NMR-based functional profiling of RASopathies and oncogenic RAS mutations |
|
• |
• |
|
• |
• |
|
| Liokatis 2010 |
 |
Simultaneous Detection of Protein Phosphorylation and Acetylation by High-Resolution NMR Spectroscopy |
|
• |
|
|
• |
|
|
| Marshall 2009 |
 |
Characterization of the Intrinsic and TSC2-GAP–Regulated GTPase Activity of Rheb by Real-Time NMR |
|
• |
|
|
• |
• |
|
| Brecker 2000 |
 |
Biotransformations monitored in situ by proton nuclear magnetic resonance spectroscopy |
|
|
• |
|
• |
|
|
| xxx |
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xxx |
|
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