computational
modeling in biology

The CMB group is involved in several metabolomics projects at the Helmholtz center, covering the systems biology and modeling aspects of this newly arising -omics technology.

Main contacts at CMB: Jan Krumsiek, Jörg Bartel, Ferdinand Stückler

Gaussian graphical models

• We established Gaussian graphical models, which are based on so-called partial correlation coefficients, as a useful tool for the analysis of high-throughput metabolomics data.
• Generally, reconstructed edges in the network correspond to metabolite pairs that share direct connections in the metabolic pathway.
• Collaboration partners: Gabi Kastenmüller, Karsten Suhre, Thomas Illig, Jerzi Adamski. Our study is based on data from the KORA population cohort. 

Network-based analysis of metabolomics data

• The GGM method has been used e.g. to elucidate sex-specific metabolite differences in the KORA population cohort.
• We combine the results from differential statistical analysis with metabolic networks in order to find regulated pathway regions. 
• Collaboration partners: Gabi Kastenmüller, Thomas Illig, Karl-Heinz Ladwig, Jakob Linseisen

Integration of metabolomics with transcriptomics/proteomics

• We integrate metabolomics data with transcriptomics and proteomics data, both on a data-driven and on a knowledge-driven basis. 
• For the data-driven approach, we currently estimate Gaussian graphical models on joint data matrices containing multiple omics datasets.
• On a knowledge-driven level, we project the differential activity of measured entities onto metabolic pathways and apply specifically designed algorithms to find enriched regions (see image).
• Collaboration partners: Martin von Bergen, Holger Prokisch, Susanne Neschen / Martin Hrabé de Angelis

Modeling mitochondrial beta-oxidation

• We created a simple mathematical model of mitochondrial beta-oxidation, that is the catabolic breakdown of fatty acids.
• Fitting the model to measured data points yields relative reaction rates for each breakdown step in the beta-oxidation cascade.

• Relative reaction rates could be applied to better explain interindividual variation in metabolic patterns and improved the characterization of distinct metabolic phenotypes.

• This work is part of the "Munich Functional Metabolomics Initiative"  MuFuMet

References

• Identification and quantification of 1-hydroxybutene-2-yl mercapturic acid in human urine by UPLC- HILIC-MS/MS as a novel biomarker for 1,3-butadiene exposure.
  Sterz K, Scherer G, Krumsiek J, Theis FJ, Ecker J
  Chemical Research in Toxicology, accepted
  
• Body fat free mass is associated with the serum metabolite profile in a population-based study.
  Jourdan C, Petersen A, Gieger C, Döring A, Illig T, Wang-Sattler R, Meisinger C, Peters A, Adamski J, Prehn C, Suhre K, Altmaier E, Kastenmüller G, Römisch-Margl W, Theis FJ, Krumsiek J, Wichmann H, Linseisen J
  PLoS One, 7:e40009, 2012  [ PDF | PubMed ]
  
• On the hypothesis-free testing of metabolite ratios in genome-wide and metabolome-wide association studies.
  Petersen A, Krumsiek J, Wägele B, Theis FJ, Wichmann H, Gieger C, Suhre K
  BMC Bioinformatics, 13:120, 2012  [ PubMed ]
  
• Bayesian Independent Component Analysis recovers pathway signatures from blood metabolomics data.
  Krumsiek J, Suhre K, Illig T, Adamski J, Theis FJ
  J Proteome Res, 2012  [ PubMed ]
  
• The dynamic range of the human metabolome revealed by challenges.
  Krug S, Kastenmüller G, Stückler F, Rist MJ, Skurk T, Sailer M, Raffler J, Römisch-Margl W, Adamski J, Prehn C, Frank T, Engel K, Hofmann T, Luy B, Zimmermann R, Moritz F, Schmitt-Kopplin P, Krumsiek J, Kremer W, Huber F, Oeh U, Theis FJ, Szymczak W, Hauner H, Suhre K, Daniel H
  FASEB J, 2012  [ PubMed ]
  
• Systems Biology meets Metabolism.
  Krumsiek J, Stückler F, Kastenmüller G, Theis FJ
  in Genetics Meets Metabolomics, 2012
  
• An ISA Algorithm With Unknown Group Sizes Identifies Meaningful Clusters in Metabolomics Data.
  Gutch H, Krumsiek J, Theis F
  EUSIPCO - European Signal Processing Conference, 2011  [ PDF ]
  
• Discovery of Sexual Dimorphisms in Metabolic and Genetic Biomarkers.
  Mittelstrass K, Ried JS, Yu Z, Krumsiek J, Gieger C, Prehn C, Roemisch-Margl W, Polonikov A, Peters A, Theis FJ, Meitinger T, Kronenberg F, Weidinger S, Wichmann HE, Suhre K, Wang-Sattler R, Adamski J, Illig T
  PLoS Genet, 7:e1002215, 2011  [ PDF | PubMed ]
  
• Gaussian graphical modeling reveals specific lipid correlations in glioblastoma cells.
  Mueller NS, Krumsiek J, Theis FJ, Böhm C, Meyer-Baese A
  Independent Component Analyses, Wavelets, Neural Networks, Biosystems, and Nanoengineering IX, 8058:805819, 2011  [ PDF ]
  
• Gaussian graphical modeling reconstructs pathway reactions from high-throughput metabolomics data.
  Krumsiek J, Suhre K, Illig T, Adamski J, Theis FJ
  BMC Syst Biol, 5:21, 2011  [ PDF | PubMed ]