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Christoph Schmal
Christoph Schmal
Independent Research Fellow, Humboldt-University, Berlin
Verified email at hu-berlin.de - Homepage
Title
Cited by
Cited by
Year
Lymphocyte circadian clocks control lymph node trafficking and adaptive immune responses
D Druzd, O Matveeva, L Ince, U Harrison, W He, C Schmal, H Herzel, ...
Immunity 46 (1), 120-132, 2017
4042017
The choroid plexus is an important circadian clock component
J Myung, C Schmal, S Hong, Y Tsukizawa, P Rose, Y Zhang, ...
Nature communications 9 (1), 1062, 2018
1442018
A Circadian Clock-Regulated Toggle Switch Explains AtGRP7 and AtGRP8 Oscillations in Arabidopsis thaliana
C Schmal, P Reimann, D Staiger
PLoS Computational Biology 9 (3), e1002986, 2013
692013
A theoretical study on seasonality
C Schmal, J Myung, H Herzel, G Bordyugov
Frontiers in neurology 6, 138218, 2015
612015
Measuring relative coupling strength in circadian systems
C Schmal, ED Herzog, H Herzel
Journal of biological rhythms 33 (1), 84-98, 2018
492018
Clocks in the wild: entrainment to natural light
C Schmal, H Herzel, J Myung
Frontiers in physiology 11, 522283, 2020
432020
Moran’s I quantifies spatio-temporal pattern formation in neural imaging data
C Schmal, J Myung, H Herzel, G Bordyugov
Bioinformatics 33 (19), 3072-3079, 2017
342017
Amplitude effects allow short jet lags and large seasonal phase shifts in minimal clock models
B Ananthasubramaniam, C Schmal, H Herzel
Journal of molecular biology 432 (12), 3722-3737, 2020
272020
Optimal time frequency analysis for biological data-pyBOAT
G Mönke, FA Sorgenfrei, C Schmal, AE Granada
BioRxiv, 2020.04. 29.067744, 2020
252020
Weak coupling between intracellular feedback loops explains dissociation of clock gene dynamics
C Schmal, D Ono, J Myung, JP Pett, S Honma, KI Honma, H Herzel, ...
PLOS Computational Biology 15 (9), e1007330, 2019
192019
Boolean networks with robust and reliable trajectories
C Schmal, TP Peixoto, B Drossel
New Journal of Physics 12 (11), 113054, 2010
192010
Conceptual models of entrainment, jet lag, and seasonality
IT Tokuda, C Schmal, B Ananthasubramaniam, H Herzel
Frontiers in Physiology 11, 512814, 2020
162020
Modeling and Simulating the Arabidopsis thaliana Circadian Clock Using XPP-AUTO
C Schmal, JC Leloup, D Gonze
Plant circadian networks: methods and protocols, 337-358, 2014
162014
Nonlinear phenomena in models of the circadian clock
I van Soest, M Del Olmo, C Schmal, H Herzel
Journal of the Royal Society Interface 17 (170), 20200556, 2020
122020
Principles underlying the complex dynamics of temperature entrainment by a circadian clock
P Burt, S Grabe, C Madeti, A Upadhyay, M Merrow, T Roenneberg, ...
Iscience 24 (11), 2021
112021
The plant leaf movement analyzer (PALMA): a simple tool for the analysis of periodic cotyledon and leaf movement in Arabidopsis thaliana
L Wagner, C Schmal, D Staiger, S Danisman
Plant Methods 13, 1-11, 2017
112017
CHRONO and DEC1/DEC2 compensate for lack of CRY1/CRY2 in expression of coherent circadian rhythm but not in generation of circadian oscillation in the neonatal mouse SCN
D Ono, K Honma, C Schmal, T Takumi, T Kawamoto, K Fujimoto, Y Kato, ...
Scientific Reports 11 (1), 19240, 2021
72021
Analysis of complex circadian time series data using wavelets
C Schmal, G Mönke, AE Granada
Circadian Regulation: Methods and Protocols, 35-54, 2022
62022
Author Correction: The choroid plexus is an important circadian clock component
J Myung, C Schmal, S Hong, Y Tsukizawa, P Rose, Y Zhang, ...
Nature communications 10, 2019
42019
Are circadian amplitudes and periods correlated? A new twist in the story
M Del Olmo, C Schmal, C Mizaikoff, S Grabe, C Gabriel, A Kramer, ...
F1000Research 12, 2023
32023
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