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Adrián E. Granada
Adrián E. Granada
Charité Comprehensive Cancer Center
Verified email at charite.de - Homepage
Title
Cited by
Cited by
Year
Coupling governs entrainment range of circadian clocks
U Abraham, AE Granada, PO Westermark, M Heine, A Kramer, H Herzel
Molecular systems biology 6 (1), 438, 2010
3992010
Human chronotypes from a theoretical perspective
AE Granada, G Bordyugov, A Kramer, H Herzel
PLoS One 8 (3), e59464, 2013
1082013
Tuning the phase of circadian entrainment
G Bordyugov, U Abraham, A Granada, P Rose, K Imkeller, A Kramer, ...
Journal of The Royal Society Interface 12 (108), 20150282, 2015
1042015
How to achieve fast entrainment? The timescale to synchronization
AE Granada, H Herzel
PloS one 4 (9), e7057, 2009
762009
Phase response curves: elucidating the dynamics of coupled oscillators
A Granada, RM Hennig, B Ronacher, A Kramer, H Herzel
Methods in enzymology 454, 1-27, 2009
712009
Live-cell imaging of circadian clock protein dynamics in CRISPR-generated knock-in cells
CH Gabriel, M Del Olmo, A Zehtabian, M Jäger, S Reischl, H van Dijk, ...
Nature communications 12 (1), 3796, 2021
602021
Intercellular coupling between peripheral circadian oscillators by TGF-β signaling
AM Finger, S Jäschke, M Del Olmo, R Hurwitz, AE Granada, H Herzel, ...
Science advances 7 (30), eabg5174, 2021
522021
The effects of proliferation status and cell cycle phase on the responses of single cells to chemotherapy
AE Granada, A Jiménez, J Stewart-Ornstein, N Blüthgen, S Reber, ...
Molecular biology of the cell 31 (8), 845-857, 2020
492020
Genetic redundancy strengthens the circadian clock leading to a narrow entrainment range
A Erzberger, G Hampp, AE Granada, U Albrecht, H Herzel
Journal of The Royal Society Interface 10 (84), 20130221, 2013
492013
How coupling determines the entrainment of circadian clocks
G Bordyugov, AE Granada, H Herzel
The European Physical Journal B 82, 227-234, 2011
412011
Circadian desynchronization
AE Granada, T Cambras, A Díez-Noguera, H Herzel
Interface Focus 1 (1), 153-166, 2011
412011
Optimal time frequency analysis for biological data-pyBOAT
G Mönke, FA Sorgenfrei, C Schmal, AE Granada
BioRxiv, 2020.04. 29.067744, 2020
342020
Analysis of complex circadian time series data using wavelets
C Schmal, G Mönke, AE Granada
Circadian Regulation: Methods and Protocols, 35-54, 2022
112022
p53 and p21 dynamics encode single-cell DNA damage levels, fine-tuning proliferation and shaping population heterogeneity
N Gutu, N Binish, U Keilholz, H Herzel, AE Granada
Communications Biology 6 (1), 1196, 2023
42023
Information transfer in the mammalian circadian clock
AE Granada, H Herzel, A Kramer, U Abraham
Information-and communication theory in molecular biology, 247-257, 2018
32018
Circadian period is compensated for repressor protein turnover rates in single cells
CH Gabriel, M Del Olmo, A Rizki Widini, R Roshanbin, J Woyde, E Hamza, ...
Proceedings of the National Academy of Sciences 121 (34), e2404738121, 2024
22024
Optimal Analysis for Rhythmic Time-Dependent Biological Data-pyBOAT
G Mönke, F Sorgenfrei, C Schmal, AE Granada
Available at SSRN 3748561, 2020
22020
Circadian Coupling Orchestrates Cell Growth
NN Gutu, M Nordentoft, M Kuhn, C Ector, AM Finger, MS Heltberg, ...
bioRxiv, 2024.05. 18.594797, 2024
12024
Time-of-day effects of drugs revealed by high-throughput deep phenotyping
C Ector, C Schmal, J Didier, S De Landtsheer, A Finger, ...
12023
Transients and Bifurcations of the Mammalian Circadian System: From Synchronization to Desynchronization Mechanisms
AE Granada
Logos Verlag Berlin GmbH, 2011
12011
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Articles 1–20