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Judit Zámborszky
Judit Zámborszky
Institute of Enzymology (Research Center of Natural Sciences, Hungarian Academy of Sciences)
Verified email at ttk.mta.hu
Title
Cited by
Cited by
Year
Loss of BRCA1 or BRCA2 markedly increases the rate of base substitution mutagenesis and has distinct effects on genomic deletions
J Zámborszky, B Szikriszt, JZ Gervai, O Pipek, Á Póti, M Krzystanek, ...
Oncogene 36 (6), 746-755, 2017
1412017
Circadian rhythms synchronize mitosis in Neurospora crassa
CI Hong, J Zámborszky, M Baek, L Labiscsak, K Ju, H Lee, LF Larrondo, ...
Proceedings of the National Academy of Sciences 111 (4), 1397-1402, 2014
872014
Computational analysis of mammalian cell division gated by a circadian clock: quantized cell cycles and cell size control
J Zámborszky, CI Hong, A Csikász Nagy
Journal of biological rhythms 22 (6), 542-553, 2007
732007
Cooperative interactions between p53 and NFκB enhance cell plasticity
A Bisio, J Zámborszky, S Zaccara, M Lion, T Tebaldi, V Sharma, ...
Oncotarget 5 (23), 12111, 2014
292014
A genetic study based on PCNA-ubiquitin fusions reveals no requirement for PCNA polyubiquitylation in DNA damage tolerance
JZ Gervai, J Gálicza, Z Szeltner, J Zámborszky, D Szüts
DNA repair 54, 46-54, 2017
202017
Minimum criteria for DNA damage-induced phase advances in circadian rhythms
CI Hong, J Zámborszky, A Csikász-Nagy
PLoS computational biology 5 (5), e1000384, 2009
172009
BRCA1 deficiency specific base substitution mutagenesis is dependent on translesion synthesis and regulated by 53BP1
D Chen, JZ Gervai, Á Póti, E Németh, Z Szeltner, B Szikriszt, Z Gyüre, ...
Nature communications 13 (1), 226, 2022
162022
Molecular Network Dynamics of Cell Cycle Control: Transitions to Start and Finish
A Csikász-Nagy, A Palmisano, J Zámborszky
Cell Cycle Synchronization: Methods and Protocols, 277-291, 2011
162011
Neurospora crassa as a model organism to explore the interconnected network of the cell cycle and the circadian clock
J Zámborszky, A Csikász-Nagy, CI Hong
Fungal Genetics and Biology 71, 52-57, 2014
142014
Molecular Network Dynamics of Cell Cycle Control: Periodicity of Start and Finish
A Palmisano, J Zámborszky, C Oguz, A Csikász-Nagy
Cell Cycle Synchronization: Methods and Protocols, 331-349, 2017
132017
Formal Methods in Molecular Biology (Dagstuhl Seminar 11151)
R Breitling, AM Uhrmacher, FJ Bruggeman, C Priami
Schloss-Dagstuhl-Leibniz Zentrum für Informatik, 2011
32011
BlenX-based compositional modeling of complex reaction mechanisms
J Zámborszky, C Priami
arXiv preprint arXiv:1002.4065, 2010
32010
Compositional modeling of biological systems
J Zámborszky
Universitŕ degli studi di Trento, 2010
22010
Functional crosstalk between the p53 and NF-kB transcription factors.
A Bisio, J Zámborszky, S Zaccara, M Lion, T Tebaldi, Y Ciribilli, A Inga
Cancer Research 73 (8_Supplement), 746-746, 2013
12013
Analyzing various models of Circadian Clock and Cell Cycle coupling
A Csikász-Nagy, A Faure, R Larcher, P Lecca, I Mura, F Jordan, ...
Dagstuhl Seminar Proceedings, 2009
12009
Connection between the cell cycle and the circadian rhythm in mammalian cells
J Zamborszky, CI Hong, A Csikasz-Nagy
FEBS JOURNAL 274, 248-248, 2007
12007
Connection between the cell cycle and the circadian clock in mammalian cells
J Zámborszky, CI Hong, A Csikász-Nagy
ModellingComplex BiologicalSystems, 111, 2007
12007
Modeling the cell cycle
J Zámborszky, A Csikász-Nagy
UNESCO Encyclopedia of Life Support Systems, 0
1
Effects of DNA damage on the cell cycle through the circadian clock
Z Bujtár, J Zámborszky, T Matsu-ura, CI Hong, A Csikász-Nagy
FEBS OPEN BIO 11, 495-495, 2021
2021
660 Functional Crosstalk Between the P53 and NF-kB Transcription Factors
J Zamborszky, S Zaccara, A Bisio, M Lion, T Tebaldi, Y Ciribilli, A Inga
european journal of cancer, S156, 2012
2012
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