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A roadmap for interpreting (13)C metabolite labeling patterns from cellsApplication of a genetically encoded biosensor for live cell imaging of L-valine production in pyruvate dehydrogenase complex-deficient Corynebacterium glutamicum strainsNon-Invasive Microbial Metabolic Activity Sensing at Single Cell Level by Perfusion of Calcein Acetoxymethyl EsterCurrent state and challenges for dynamic metabolic modeling¹³C metabolic flux analysis identifies an unusual route for pyruvate dissimilation in mycobacteria which requires isocitrate lyase and carbon dioxide fixationThe topology of metabolic isotope labeling networks.13C labeling experiments at metabolic nonstationary conditions: an exploratory study.Visualizing multi-omics data in metabolic networks with the software Omix: a case study.13CFLUX2--high-performance software suite for (13)C-metabolic flux analysis.Fluxome study of Pseudomonas fluorescens reveals major reorganisation of carbon flux through central metabolic pathways in response to inactivation of the anti-sigma factor MucA.Vizardous: interactive analysis of microbial populations with single cell resolution.A scientific workflow framework for (13)C metabolic flux analysis.Image-Based Single Cell Profiling: High-Throughput Processing of Mother Machine Experiments.13C-flux spectral analysis of host-pathogen metabolism reveals a mixed diet for intracellular Mycobacterium tuberculosis.The benefits of being transient: isotope-based metabolic flux analysis at the short time scale.How to measure metabolic fluxes: a taxonomic guide for (13)C fluxomics.Comparative 13C metabolic flux analysis of pyruvate dehydrogenase complex-deficient, L-valine-producing Corynebacterium glutamicum.To be certain about the uncertainty: Bayesian statistics for 13 C metabolic flux analysis.Natural isotope correction of MS/MS measurements for metabolomics and (13)C fluxomics.Spatiotemporal microbial single-cell analysis using a high-throughput microfluidics cultivation platform.Live cell imaging of SOS and prophage dynamics in isogenic bacterial populations.Error propagation analysis for quantitative intracellular metabolomics.Metabolic engineering of Corynebacterium glutamicum for methanol metabolism.Metabolic isotopomer labeling systems. Part III: path tracing.Visual workflows for 13C-metabolic flux analysis.Metabolic flux analysis at ultra short time scale: isotopically non-stationary 13C labeling experiments.Computational tools for isotopically instationary 13C labeling experiments under metabolic steady state conditions.Experimental design principles for isotopically instationary 13C labeling experiments.A Pareto approach to resolve the conflict between information gain and experimental costs: Multiple-criteria design of carbon labeling experimentsStationary versus non-stationary 13C-MFA: A comparison using a consistent datasetSeparation of 13C- and 15N-Isotopologues of Amino Acids with a Primary Amine without Mass Resolution by Means of O-Phthalaldehyde Derivatization and Collision Induced Dissociationmycelyso - high-throughput analysis of Streptomyces mycelium live cell imaging data
P50
Q27003299-764CE35D-ADA5-4018-B046-348523707039Q27333354-79FAAD4C-9603-4350-8025-6DE7700FFF7AQ27348602-EB6C3711-34A8-4239-ADCD-CC8657E92AAEQ28080128-0FECCEEE-13E6-4599-A9C3-9BEEE458C858Q28479236-C3172333-6A10-4F40-AFC2-0B123AF47787Q33295450-1E083941-39DA-4980-A7C8-6D740BED1F1BQ33325667-BA9B2829-2582-464D-8ED2-03D942B21CAAQ33901804-145653F8-03BB-4448-B36D-823C95517E14Q34461785-38B545D3-3E44-4A7D-ABF3-A11A9F485A5CQ35153791-D152CEE3-75F5-43CB-881D-D6F2620E4842Q35742154-4A630917-C8C0-48ED-8DCF-8B176807F25CQ35882801-E6E797B7-C853-4D10-A71B-ACFCEBF3AE54Q36142893-3EA34499-F165-4581-8ED0-6792256A0CE6Q37119991-B93A1BC1-5BDA-4465-A474-2D346D1B8737Q37898059-E5A94DD4-7C57-44F7-823F-9BBDEC8CC20DQ38296882-EADA5F5C-754C-4460-86DE-F40D47B16711Q38628856-D36BB9B3-B783-4FCA-843C-9651B9204FFAQ38684568-5E8F201C-0BA0-4FD7-A821-A96FF70F1E6FQ40417423-B54AFCEE-83CD-4135-81B8-1D1BD894A034Q40564056-145A1BB7-ADCD-4ADC-A7D1-644AA2AD16FEQ40668340-E30276CB-1AC3-4EE8-BD98-1E3656057470Q41889783-60EA80BA-5B9F-4403-84D3-1B7304030346Q42557225-6153626C-9781-4A1A-BD0C-FF476854C33DQ44642570-A0906B64-2215-4E6E-9D0E-90D0F2AB59FAQ47720874-1867FB65-D2B9-42DA-BA2A-A1D060DE4EF2Q51088105-705DD0DC-9623-4EE0-8625-745C4E3E1A5FQ51150946-6BBFB8FB-4884-49C3-B504-C439F58E5E65Q51232308-E148995B-83C6-487D-BA56-3E62F04676B0Q58090909-88884E47-B0B2-498B-8391-22ADE25152C0Q61758355-C0C825DB-6628-4529-B1F3-617A33CE171DQ90434364-7AFACCB7-F45B-4A96-AA26-07080A43C016Q93103535-CB22F46A-E536-4CAF-8643-AF92EBB88FE7
P50
description
hulumtuese
@sq
researcher
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wetenschapper
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հետազոտող
@hy
name
Katharina Nöh
@ast
Katharina Nöh
@en
Katharina Nöh
@es
Katharina Nöh
@nl
Katharina Nöh
@sl
type
label
Katharina Nöh
@ast
Katharina Nöh
@en
Katharina Nöh
@es
Katharina Nöh
@nl
Katharina Nöh
@sl
prefLabel
Katharina Nöh
@ast
Katharina Nöh
@en
Katharina Nöh
@es
Katharina Nöh
@nl
Katharina Nöh
@sl
P106
P21
P2456
P31
P496
0000-0002-5407-2275