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Imre Derényi
Researcher at Eötvös Loránd University
Publications - 94
Citations - 10742
Imre Derényi is an academic researcher from Eötvös Loránd University. The author has contributed to research in topics: Brownian motion & Kinesin. The author has an hindex of 35, co-authored 93 publications receiving 10059 citations. Previous affiliations of Imre Derényi include Curie Institute & University of Chicago.
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Effects of Intermediate Bound States in Dynamic Force Spectroscopy
TL;DR: In this paper, the authors revisited some aspects of the interpretation of dynamic force spectroscopy experiments, and provided a more general analytical formula, and showed that in principle up to N(N + 1) / 2 segments can show up experimentally.
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Self-division of giant vesicles driven by an internal enzymatic reaction
Ylenia Miele,Zsófia Medveczky,Gábor Holló,Borbála Tegze,Imre Derényi,Zoltán Hórvölgyi,Emiliano Altamura,István Lagzi,Federico Rossi,Federico Rossi +9 more
TL;DR: This work shows that pH-responsive giant unilamellar vesicles on the micrometer scale can undergo self-division triggered by an internal autonomous chemical stimulus driven by an enzymatic (urea–urease) reaction coupled to a cross-membrane transport of the substrate, urea.
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Congruent Evolution of Genetic and Environmental Robustness in Micro-RNA
Gergely J. Szollosi,Imre Derényi +1 more
TL;DR: A novel measure of environmental robustness based on the equilibrium thermodynamic ensemble of secondary structures of the miRNA precursor sequences induces a high level of correlation between genetic (mutational) and environmental (thermodynamic) robustness, as expected from the theory of plastogenetic congruence introduced by Ancel and Fontana.
Journal ArticleDOI
Effects of intermediate bound states in dynamic force spectroscopy
TL;DR: A refined approximation is extended using a refined approximation, a more general analytical formula is provided, and it is shown that in principle up to N(N + 1) / 2 segments can show up experimentally.
Journal ArticleDOI
Collective transport of particles in a "flashing" periodic potential.
Imre Derényi,Armand Ajdari +1 more
TL;DR: It is shown analytically that this simple system exhibits an interesting collective behavior, where the direction of motion can change many times as the density of particles is increased and the average velocity depends on the size of the particles in a very complex way, both in sign and magnitude.