Follow
Önder Kartal
Title
Cited by
Cited by
Year
Genome-wide, single-cell DNA methylomics reveals increased non-CpG methylation during human oocyte maturation
B Yu, X Dong, S Gravina, Ö Kartal, T Schimmel, J Cohen, D Tortoriello, ...
Stem cell reports 9 (1), 397-407, 2017
902017
Carbohydrate‐active enzymes exemplify entropic principles in metabolism
Ö Kartal, S Mahlow, A Skupin, O Ebenhöh
Molecular systems biology 7 (1), 542, 2011
472011
A generic rate law for surface-active enzymes
Ö Kartal, O Ebenhöh
FEBS letters 587 (17), 2882-2890, 2013
222013
Ground state robustness as an evolutionary design principle in signaling networks
Ö Kartal, O Ebenhöh
PloS one 4 (12), e8001, 2009
172009
waveRAPID—a robust assay for high-throughput kinetic screens with the creoptix WAVEsystem
Ö Kartal, F Andres, MP Lai, R Nehme, K Cottier
SLAS DISCOVERY: Advancing the Science of Drug Discovery 26 (8), 995-1003, 2021
142021
Cell type-specific genome scans of DNA methylation divergence indicate an important role for transposable elements
Ö Kartal, MW Schmid, U Grossniklaus
Genome biology 21, 1-29, 2020
72020
Paternal‐specific S‐allele transmission in sweet cherry (Prunus avium L.): the potential for sexual selection
A Hedhly, A Wünsch, Ö Kartal, M Herrero, JI Hormaza
Journal of evolutionary biology 29 (3), 490-501, 2016
72016
Thermodynamic characterisation of carbohydrate-active enzymes
O Ebenhöh, A Skupin, Ö Kartal, S Mahlow, M Steup
Proceedings of the" 5th International ESCEC Symposium on Experimental …, 2013
22013
Modelling reactions catalysed by carbohydrate-active enzymes
Ö Kartal, O Ebenhöh
bioRxiv, 008615, 2014
12014
The Glucan, water dikinase-a kinetic model to understand the initial step in starch mobilization in plant leaves
O Kartal, O Ebenhoh
From computational biophysics to systems biology (CBSB08) 40, 245-248, 2008
12008
The role of mixing entropy in carbohydrate metabolism
O Ebenhöh, Ö Kartal, A Skupin, S Mahlow, M Steup
European Biophysics Journal 42, S73-S73, 2013
2013
The role of interfacial and `entropic` enzymes in transitory starch degradation: a mathematical modeling approach
Ö Kartal
University of Potsdam / Max-Planck Institute of Molecular Plant Physiology, 2011
2011
A Novel Rate Law for Surface-active Enzymes: General Properties and Application to Starch Phosphorylation/Dephosphorylation
Ö Kartal, M Hejazi, J Fettke, M Steup, O Ebenhöh
The system can't perform the operation now. Try again later.
Articles 1–13