Oliver Fiehn
Cited by
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Metabolomics–the link between genotypes and phenotypes
O Fiehn
Plant molecular biology 48, 155-171, 2002
Proposed minimum reporting standards for chemical analysis: chemical analysis working group (CAWG) metabolomics standards initiative (MSI)
LW Sumner, A Amberg, D Barrett, MH Beale, R Beger, CA Daykin, ...
Metabolomics 3, 211-221, 2007
Metabolite profiling for plant functional genomics
O Fiehn, J Kopka, P Dörmann, T Altmann, RN Trethewey, L Willmitzer
Nature biotechnology 18 (11), 1157-1161, 2000
MS-DIAL: data-independent MS/MS deconvolution for comprehensive metabolome analysis
H Tsugawa, T Cajka, T Kind, Y Ma, B Higgins, K Ikeda, M Kanazawa, ...
Nature methods 12 (6), 523-526, 2015
FiehnLib: mass spectral and retention index libraries for metabolomics based on quadrupole and time-of-flight gas chromatography/mass spectrometry
T Kind, G Wohlgemuth, DY Lee, Y Lu, M Palazoglu, S Shahbaz, O Fiehn
Analytical chemistry 81 (24), 10038-10048, 2009
Metabolic profiling allows comprehensive phenotyping of genetically or environmentally modified plant systems
U Roessner, A Luedemann, D Brust, O Fiehn, T Linke, L Willmitzer, ...
The Plant Cell 13 (1), 11-29, 2001
Combining genomics, metabolome analysis, and biochemical modelling to understand metabolic networks
O Fiehn
Comparative and functional genomics 2 (3), 155-168, 2001
Seven Golden Rules for heuristic filtering of molecular formulas obtained by accurate mass spectrometry
T Kind, O Fiehn
BMC bioinformatics 8 (1), 1-20, 2007
Potential of metabolomics as a functional genomics tool
RJ Bino, RD Hall, O Fiehn, J Kopka, K Saito, J Draper, BJ Nikolau, ...
Trends in plant science 9 (9), 418-425, 2004
LipidBlast in silico tandem mass spectrometry database for lipid identification
T Kind, KH Liu, DY Lee, B DeFelice, JK Meissen, O Fiehn
Nature methods 10 (8), 755-758, 2013
A prominent role for the CBF cold response pathway in configuring the low-temperature metabolome of Arabidopsis
D Cook, S Fowler, O Fiehn, MF Thomashow
Proceedings of the National Academy of Sciences 101 (42), 15243-15248, 2004
Metabolomic database annotations via query of elemental compositions: mass accuracy is insufficient even at less than 1 ppm
T Kind, O Fiehn
BMC bioinformatics 7 (1), 1-10, 2006
Toward merging untargeted and targeted methods in mass spectrometry-based metabolomics and lipidomics
T Cajka, O Fiehn
Analytical chemistry 88 (1), 524-545, 2016
Identification of uncommon plant metabolites based on calculation of elemental compositions using gas chromatography and quadrupole mass spectrometry
O Fiehn, J Kopka, RN Trethewey, L Willmitzer
Analytical chemistry 72 (15), 3573-3580, 2000
Mass-spectrometry-based metabolomics: limitations and recommendations for future progress with particular focus on nutrition research
A Scalbert, L Brennan, O Fiehn, T Hankemeier, BS Kristal, B van Ommen, ...
Metabolomics 5, 435-458, 2009
Quality control for plant metabolomics: reporting MSI‐compliant studies
O Fiehn, G Wohlgemuth, M Scholz, T Kind, DY Lee, Y Lu, S Moon, ...
The Plant Journal 53 (4), 691-704, 2008
Comprehensive analysis of lipids in biological systems by liquid chromatography-mass spectrometry
T Cajka, O Fiehn
TrAC Trends in Analytical Chemistry 61, 192-206, 2014
Promoting coherent minimum reporting guidelines for biological and biomedical investigations: the MIBBI project
CF Taylor, D Field, SA Sansone, J Aerts, R Apweiler, M Ashburner, ...
Nature biotechnology 26 (8), 889-896, 2008
Metabolomics by gas chromatography–mass spectrometry: Combined targeted and untargeted profiling
O Fiehn
Current protocols in molecular biology 114 (1), 30.4. 1-30.4. 32, 2016
Analysis of highly polar compounds of plant origin: combination of hydrophilic interaction chromatography and electrospray ion trap mass spectrometry
VV Tolstikov, O Fiehn
Analytical biochemistry 301 (2), 298-307, 2002
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