Nutrient depletion as a key factor for manipulating gene expression and product formation in different branches of the flavonoid pathway C Lillo, US Lea, P Ruoff Plant, cell & environment 31 (5), 587-601, 2008 | 430 | 2008 |
Temperature effect on entrainment, phase shifting, and amplitude of circadian clocks and its molecular bases L Rensing, P Ruoff Chronobiology international 19 (5), 807-864, 2002 | 371 | 2002 |
Temperature and nitrogen effects on regulators and products of the flavonoid pathway: experimental and kinetic model studies KM Olsen, R Slimestad, US Lea, C Brede, T Løvdal, P Ruoff, M Verheul, ... Plant, Cell & Environment 32 (3), 286-299, 2009 | 193 | 2009 |
The temperature-compensated Goodwin model simulates many circadian clock properties P Ruoff, L Rensing Journal of theoretical biology 179 (4), 275-285, 1996 | 180 | 1996 |
The Goodwin model: simulating the effect of light pulses on the circadian sporulation rhythm of Neurospora crassa P Ruoff, M Vinsjevik, C Monnerjahn, L Rensing Journal of theoretical biology 209 (1), 29-42, 2001 | 168 | 2001 |
Biological timing and the clock metaphor: oscillatory and hourglass mechanisms L Rensing, U Meyer-Grahle, P Ruoff Chronobiology international 18 (3), 329-369, 2001 | 165 | 2001 |
The relationship between FRQ-protein stability and temperature compensation in the Neurospora circadian clock P Ruoff, JJ Loros, JC Dunlap Proceedings of the National Academy of Sciences 102 (49), 17681-17686, 2005 | 156 | 2005 |
Biological switches and clocks JJ Tyson, R Albert, A Goldbeter, P Ruoff, J Sible Journal of The Royal Society Interface 5 (suppl_1), S1-S8, 2008 | 139 | 2008 |
The Goodwin oscillator: on the importance of degradation reactions in the circadian clock P Ruoff, M Vinsjevik, C Monnerjahn, L Rensing Journal of biological rhythms 14 (6), 469-479, 1999 | 138 | 1999 |
Introducing temperature‐compensation in any reaction kinetic oscillator model P Ruoff Journal of Interdisciplinary Cycle Research 23 (2), 92-99, 1992 | 135 | 1992 |
The control of the controller: molecular mechanisms for robust perfect adaptation and temperature compensation XY Ni, T Drengstig, P Ruoff Biophysical journal 97 (5), 1244-1253, 2009 | 106 | 2009 |
Antagonistic balance in the Oregonator: about the possibility of temperature-compensation in the Belousov-Zhabotinsky reaction P Ruoff Physica D: nonlinear phenomena 84 (1-2), 204-211, 1995 | 91 | 1995 |
A reaction kinetic mechanism for methane hydrate formation in liquid water K Lekvam, P Ruoff Journal of the American Chemical Society 115 (19), 8565-8569, 1993 | 91 | 1993 |
Excitability in a closed stirred Belousov—Zhabotinskii system P Ruoff Chemical Physics Letters 90 (1), 76-80, 1982 | 91 | 1982 |
Circadian rhythmicity by autocatalysis A Mehra, CI Hong, M Shi, JJ Loros, JC Dunlap, P Ruoff PLoS computational biology 2 (7), e96, 2006 | 90 | 2006 |
Closing the circadian negative feedback loop: FRQ-dependent clearance of WC-1 from the nucleus CI Hong, P Ruoff, JJ Loros, JC Dunlap Genes & Development 22 (22), 3196-3204, 2008 | 86 | 2008 |
The nitrate reductase circadian system. The central clock dogma contra multiple oscillatory feedback loops C Lillo, C Meyer, P Ruoff Plant Physiology 125 (4), 1554-1557, 2001 | 83 | 2001 |
Modeling temperature compensation in chemical and biological oscillators P Ruoff, L Rensing, R Kommedal, S Mohsenzadeh Chronobiology international 14 (5), 499-510, 1997 | 83 | 1997 |
Temperature compensation through systems biology P Ruoff, M Zakhartsev, HV Westerhoff The FEBS journal 274 (4), 940-950, 2007 | 79 | 2007 |
A nitrate-induced frq-less oscillator in Neurospora crassa MK Christensen, G Falkeid, JJ Loros, JC Dunlap, C Lillo, P Ruoff Journal of biological rhythms 19 (4), 280-286, 2004 | 75 | 2004 |