Streif, S., R. Findeisen, L. Zeiger, H. Grammel, R. Janke, Y. Genzel and U. Reichl: WPT7: Model Validation, Parameter Analysis and Experimental Design. Part I: Parameter estimation and model invalidation using uncertain data. Part II: Redox Signaling in the facultative photosynthetic bacterium Rhodospirillum rubrum. Part III: Sensitive cycling assays for measuring key metabolic enyzme activities in MDCK cells.. (FORSYS/FORSYS Partner Status Seminar, 2011-02-15 to 2011-02-16, Heidelberg, Germany).
Streif, S., D. Oesterhelt and W. Marwan: A predictive computational model of the kinetic mechanism of stimulus-induced transducer methylation and feedback regulation through CheY in archaeal phototaxis and chemotaxis. In: BMC Systems Biology 4, [1]-[18], Seq. No.: 27 (2010).
Ohtsuka, T. and S. Streif: Commutativity of Immersion and Linearization. In: IEEE Transactions on Automatic Control 54, 4, 826-829 (2009).
Schlesner, M., A. Miller, S. Streif, W. F. Staudinger, J. Müller, B. Scheffer, F. Siedler and D. Oesterhelt: Identification of Archaea-specific chemotaxis proteins which interact with the flagellar apparatus. In: BMC Microbiology 9, [1]-[15], Seq. No.: 56 (2009).
Streif, S., W. F. Staudinger, D. Oesterhelt and W. Marwan: Quantitative analysis of signal transduction in motile and phototactic cells by computerized light stimulation and model based tracking. In: Review of Scientific Instruments 80, 2, [1]-[8], Seq. No.: 023709 (2009).
Streif, S., W. F. Staudinger, W. Marwan and D. Oesterhelt: Flagellar Rotation in the Archaeon Halobacterium salinarum Depends on ATP. In: Journal of Molecular Biology 384, 1, 1-8 (2008).
Delic, S., S. Streif, J. M. Deussing, P. Weber, M. Ueffing, S. M. Hölter, W. Wurst and R. Kuhn: Genetic mouse models for behavioral analysis through transgenic RNAi technology. In: Genes Brain and Behavior 7, 7, 821-830 (2008).
del Rosario, R. C. H., W. F. Staudinger, S. Streif, F. Pfeiffer, E. Mendoza and D. Oesterhelt: Modelling the CheY(D10K,Y100W) Halobacterium salinarum mutant: sensitivity analysis allows choice of parameter to be modified in the phototaxis model. In: IET Systems Biology 1, 4, 207-221 (2007).
The Max Planck Society does not take any responsibility for the content of this export.