Max Flöttmann
Max Flöttmann
確認したメール アドレス: biologie.hu-berlin.de
タイトル
引用先
引用先
Molecular insights into reprogramming-initiation events mediated by the OSKM gene regulatory network
N Mah, Y Wang, MC Liao, A Prigione, J Jozefczuk, B Lichtner, K Wolfrum, ...
PloS one 6 (8), e24351, 2011
762011
A stochastic model of epigenetic dynamics in somatic cell reprogramming
M Flöttmann, T Scharp, E Klipp
Frontiers in physiology 3, 216, 2012
412012
Alteration of protein levels during influenza virus H1N1 infection in host cells: a proteomic survey of host and virus reveals differential dynamics
S Kummer, M Flöttmann, B Schwanhäusser, C Sieben, M Veit, M Selbach, ...
PloS one 9 (4), e94257, 2014
362014
Automated ensemble modeling with modelMaGe: analyzing feedback mechanisms in the Sho1 branch of the HOG pathway
J Schaber, M Flöttmann, J Li, CF Tiger, S Hohmann, E Klipp
PloS one 6 (3), e14791, 2011
242011
ModelMage: a tool for automatic model generation, selection and management
M Flöttmann, J Schaber, S Hoops, E Klipp, P Mendes
Genome Informatics 20, 52-63, 2008
232008
Stochastic simulation of Boolean rxncon models: towards quantitative analysis of large signaling networks
T Mori, M Flöttmann, M Krantz, T Akutsu, E Klipp
BMC systems biology 9 (1), 1-9, 2015
202015
A common integrative nuclear signaling module for stem cell development
MK Stachowiak, EK Stachowiak, JM Aletta, ES Tzanakakis
Stem Cells: From Mechanisms to Technologies, 87-132, 2012
192012
Biographer: web-based editing and rendering of SBGN compliant biochemical networks
F Krause, M Schulz, B Ripkens, M Flöttmann, M Krantz, E Klipp, T Handorf
Bioinformatics 29 (11), 1467-1468, 2013
172013
Viral RNA degradation and diffusion act as a bottleneck for the influenza A virus infection efficiency
M Schelker, CM Mair, F Jolmes, RW Welke, E Klipp, A Herrmann, ...
PLoS computational biology 12 (10), e1005075, 2016
162016
Reaction-contingency based bipartite Boolean modelling
M Flöttmann, F Krause, E Klipp, M Krantz
BMC systems biology 7 (1), 1-12, 2013
132013
G1 and g2 arrests in response to osmotic shock are robust properties of the budding yeast cell cycle
C Waltermann, M Floettmann, E Klipp
Genome Informatics 2010: Genome Informatics Series Vol. 24, 204-217, 2010
42010
A transcriptome-wide analysis deciphers distinct roles of G1 cyclins in temporal organization of the yeast cell cycle
L Teufel, K Tummler, M Flöttmann, A Herrmann, N Barkai, E Klipp
Scientific reports 9 (1), 1-14, 2019
22019
SensA: web-based sensitivity analysis of SBML models
M Floettmann, J Uhlendorf, T Scharp, E Klipp, TW Spiesser
Bioinformatics 30 (19), 2830-2831, 2014
22014
Roles of G1 cyclins in the temporal organization of yeast cell cycle-a transcriptome-wide analysis
L Teufel, K Tummler, M Flöttmann, A Herrmann, N Barkai, E Klipp
bioRxiv, 287573, 2018
12018
Computational Modeling of Biochemical Processes and Cell Differentiation
M Floettmann, T Scharp, E Klipp
Stem Cells: From Mechanisms to Technologies, 3-29, 2012
12012
Functional analysis of High-Throughput data for dynamic modeling in eukaryotic systems
M Flöttmann
Humboldt-Universität zu Berlin, Mathematisch-Naturwissenschaftliche Fakultät I, 2013
2013
Automated Ensemble Modeling with modelMaGe: Analyzing Feedback Mechanisms in
J Schaber, M Flöttmann, J Li, CF Tiger, S Hohmann
2011
A Dynamical Stochastic Model of Yeast Translation Across the Cell Cycle
M Seeger, M Flöttmann, E Klipp
Available at SSRN 3701939, 0
Sequence and Structure Analysis of an Unknown Protein
M Flöttmann, A Möglich
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論文 1–19