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1. Twist-bend coupling, twist waves and the shape of DNA loops

Author

Nomidis, S. K., Caraglio, M., Laleman, M., Phillips, K., Skoruppa, E., and Carlon, E.

Subjects
Quantitative Biology - Biomolecules, Condensed Matter - Soft Condensed Matter, Condensed Matter - Statistical Mechanics
Abstract

By combining analytical and numerical calculations, we investigate the minimal-energy shape of short DNA loops of approximately $100$ base pairs (bp). We show that in these loops the excess twist density oscillates as a response to an imposed bending stress, as recently found in DNA minicircles and observed in nucleosomal DNA. These twist oscillations, here referred to as twist waves, are due to the coupling between twist and bending deformations, which in turn originates from the asymmetry between DNA major and minor grooves. We introduce a simple analytical variational shape, that reproduces the exact loop energy up to the fourth significant digit, and is in very good agreement with shapes obtained from coarse-grained simulations. We, finally, analyze the loop dynamics at room temperature, and show that the twist waves are robust against thermal fluctuations. They perform a normal diffusive motion, whose origin is briefly discussed., Comment: 9 pages, 6 figures

Published
2019
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2. The effect of memory and active forces on transition path times distributions

Author

Carlon, E., Orland, H., Sakaue, T., and Vanderzande, C.

Subjects
Condensed Matter - Statistical Mechanics, Quantitative Biology - Biomolecules
Abstract

An analytical expression is derived for the transition path time distribution for a one-dimensional particle crossing of a parabolic barrier. Two cases are analyzed: (i) A non-Markovian process described by a generalized Langevin equation with a power-law memory kernel and (ii) a Markovian process with a noise violating the fluctuation-dissipation theorem, modeling the stochastic dynamics generated by active forces. In the case (i) we show that the anomalous dynamics strongly affecting the short time behavior of the distributions, but this happens only for very rare events not influencing the overall statistics. At long times the decay is always exponential, in disagreement with a recent study suggesting a stretched exponential decay. In the case (ii) the active forces do not substantially modify the short time behavior of the distribution, but lead to an overall decrease of the average transition path time. These findings offer some novel insights, useful for the analysis of experiments of transition path times in (bio)molecular systems., Comment: 13 pages, 5 figures

Published
2018

3. Transition path time distributions

Author

Laleman, M., Carlon, E., and Orland, H.

Subjects
Condensed Matter - Statistical Mechanics, Condensed Matter - Soft Condensed Matter, Quantitative Biology - Biomolecules
Abstract

Biomolecular folding, at least in simple systems, can be described as a two state transition in a free energy landscape with two deep wells separated by a high barrier. Transition paths are the short part of the trajectories that cross the barrier. Average transition path times and, recently, their full probability distribution have been measured for several biomolecular systems, e.g. in the folding of nucleic acids or proteins. Motivated by these experiments, we have calculated the full transition path time distribution for a single stochastic particle crossing a parabolic barrier, focusing on the underdamped regime. Our analysis thus includes inertial terms, which were neglected in previous studies. These terms influence the short time scale dynamics of a stochastic system, and can be of experimental relevance in view of the short duration of transition paths. We derive the full transition path time distribution in the underdamped case and discuss the similarities and differences with the high friction (overdamped) limit., Comment: 16 pages, 5 figures

Published
2017
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4. The heterodimer auto-repression loop: a robust and flexible pulse-generating genetic module

Author

Lannoo, B., Carlon, E., and Lefranc, M.

Subjects
Quantitative Biology - Molecular Networks, Physics - Biological Physics, Quantitative Biology - Quantitative Methods
Abstract

We investigate the dynamics of the heterodimer autorepression loop (HAL), a small genetic module in which a protein A acts as an auto-repressor and binds to a second protein B to form a AB dimer. For suitable values of the rate constants the HAL produces pulses of A alternating with pulses of B. By means of analytical and numerical calculations, we show that the duration of A-pulses is extremely robust against variation of the rate constants while the duration of the B-pulses can be flexibly adjusted. The HAL is thus a minimal genetic module generating robust pulses with tunable duration an interesting property for cellular signalling., Comment: 5 pages, 5 figures and SI (6 pages)

Published
2017
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5. Twist-bend coupling and the torsional response of double-stranded DNA

Author

Nomidis, S. K., Kriegel, F., Vanderlinden, W., Lipfert, J., and Carlon, E.

Subjects
Condensed Matter - Soft Condensed Matter, Quantitative Biology - Biomolecules
Abstract

Recent magnetic tweezers experiments have reported systematic deviations of the twist response of double-stranded DNA from the predictions of the twistable worm-like chain model. Here we show, by means of analytical results and computer simulations, that these discrepancies can be resolved if a coupling between twist and bend is introduced. We obtain an estimate of 40 $\pm$ 10 nm for the twist-bend coupling constant. Our simulations are in good agreement with high-resolution, magnetic-tweezers torque data. Although the existence of twist-bend coupling was predicted long ago (Marko and Siggia, Macromolecules 27, 981 (1994)), its effects on the mechanical properties of DNA have been so far largely unexplored. We expect that this coupling plays an important role in several aspects of DNA statics and dynamics., Comment: 6 pages, 3 figures, Supplemental Material included

Published
2016
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6. Anomalous dynamics of DNA hairpin folding

Author

Frederickx, R., Veld, T. in't, and Carlon, E.

Subjects
Quantitative Biology - Biomolecules, Condensed Matter - Soft Condensed Matter, Condensed Matter - Statistical Mechanics
Abstract

By means of computer simulations of a coarse-grained DNA model we show that the DNA hairpin zippering dynamics is anomalous, i.e. the characteristic time T scales non-linearly with N, the hairpin length: T ~ N^a with a>1. This is in sharp contrast with the prediction of the zipper model for which T ~ N. We show that the anomalous dynamics originates from an increase in the friction during zippering due to the tension built in the closing strands. From a simple polymer model we get a = 1+ nu = 1.59 with nu the Flory exponent, a result which is in agreement with the simulations. We discuss transition path times data where such effects should be detected., Comment: 5 pages, 6 figures; watch video abstract at http://youtu.be/QLotNZaz76c

Published
2014
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7. Computing equilibrium concentrations for large heterodimerization networks

Author

van Dorp, M. G. A., Berger, F., and Carlon, E.

Subjects
Quantitative Biology - Molecular Networks, Condensed Matter - Statistical Mechanics, Physics - Computational Physics
Abstract

We consider a chemical reaction network governed by mass action kinetics and composed of N different species which can reversibly form heterodimers. A fast iterative algorithm is introduced to compute the equilibrium concentrations of such networks. We show that the convergence is guaranteed by the Banach fixed point theorem. As a practical example, of relevance for a quantitative analysis of microarray data, we consider a reaction network formed by N~10^6 mutually hybridizing different mRNA sequences. We show that, despite the large number of species involved, the convergence to equilibrium is very rapid for most species. The origin of slow convergence for some specific subnetworks is discussed. This provides some insights for improving the performance of the algorithm., Comment: 9 pages, 4 eps figures

Published
2011
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8. Unwinding dynamics of double-stranded polymers

Author

Baiesi, M., Barkema, G. T., Carlon, E., and Panja, D.

Subjects
Condensed Matter - Soft Condensed Matter, Quantitative Biology - Biomolecules
Abstract

We consider the unwinding of two lattice polymer strands of length N that are initially wound around each other in a double-helical conformation and evolve through Rouse dynamics. The problem relates to quickly bringing a double-stranded polymer well above its melting temperature, i.e., the binding interactions between the strands are neglected, and the strands separate from each other as it is entropically favorable for them to do so. The strands unwind by rotating around each other until they separate. We find that the process proceeds from the ends inward; intermediate conformations can be characterized by a tightly wound inner part, from which loose strands are sticking out, with length l~t^0.39. The total time needed for the two strands to unwind scales as a power of N as tu~N^(2.57+-0.03). We present a theoretical argument, which suggests that during this unwinding process, these loose strands are far out of equilibrium., Comment: 12 pages, 4 figures

Published
2010
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9. A lattice polymer study of DNA renaturation dynamics

Author

Ferrantini, A., Baiesi, M., and Carlon, E.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

DNA renaturation is the recombination of two complementary single strands to form a double helix. It is experimentally known that renaturation proceeds through the formation of a double stranded nucleus of several base pairs (the rate limiting step) followed by a much faster zippering. We consider a lattice polymer model undergoing Rouse dynamics and focus on the nucleation of two diffusing strands. We study numerically the dependence of various nucleation rates on the strand lengths and on an additional local nucleation barrier. When the local barrier is sufficiently high, all renaturation rates considered scale with the length as predicted by Kramers' rate theory and are also in agreement with experiments: their scaling behavior is governed by exponents describing equilibrium properties of polymers. When the local barrier is lowered renaturation occurs in a regime of genuine non-equilibrium behavior and the scaling deviates from the rate theory prediction., Comment: 13 pages, 6 figures. To appear in Journal of Statistical Mechanics

Published
2010
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10. Breakdown of thermodynamic equilibrium for DNA hybridization in microarrays

Author

Hooyberghs, J., Baiesi, M., Ferrantini, A., and Carlon, E.

Subjects
Quantitative Biology - Biomolecules, Condensed Matter - Soft Condensed Matter, Condensed Matter - Statistical Mechanics
Abstract

Test experiments of hybridization in DNA microarrays show systematic deviations from the equilibrium isotherms. We argue that these deviations are due to the presence of a partially hybridized long-lived state, which we include in a kinetic model. Experiments confirm the model predictions for the intensity vs. free energy behavior. The existence of slow relaxation phenomena has important consequences for the specificity of microarrays as devices for the detection of a target sequence from a complex mixture of nucleic acids., Comment: 4 pages, 4 figures

Published
2010
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11. The effects of mismatches on hybridization in DNA microarrays: determination of nearest neighbor parameters

Author

Hooyberghs, J., Van Hummelen, P., and Carlon, E.

Subjects
Quantitative Biology - Biomolecules, Quantitative Biology - Genomics
Abstract

Quantifying interactions in DNA microarrays is of central importance for a better understanding of their functioning. Hybridization thermodynamics for nucleic acid strands in aqueous solution can be described by the so-called nearest-neighbor model, which estimates the hybridization free energy of a given sequence as a sum of dinucleotide terms. Compared with its solution counterparts, hybridization in DNA microarrays may be hindered due to the presence of a solid surface and of a high density of DNA strands. We present here a study aimed at the determination of hybridization free energies in DNA microarrays. Experiments are performed on custom Agilent slides. The solution contains a single oligonucleotide. The microarray contains spots with a perfect matching complementary sequence and other spots with one or two mismatches: in total 1006 different probe spots, each replicated 15 times per microarray. The free energy parameters are directly fitted from microarray data. The experiments demonstrate a clear correlation between hybridization free energies in the microarray and in solution. The experiments are fully consistent with the Langmuir model at low intensities, but show a clear deviation at intermediate (non-saturating) intensities. These results provide new interesting insights for the quantification of molecular interactions in DNA microarrays., Comment: 31 pages, 5 figures

Published
2010
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12. Modelling background intensity in Affymetrix Genechips

Author

Kroll, K. M., Barkema, G. T., and Carlon, E.

Subjects
Quantitative Biology - Biomolecules, Physics - Biological Physics, Physics - Chemical Physics, Physics - Data Analysis, Statistics and Probability, Quantitative Biology - Quantitative Methods
Abstract

DNA microarrays are devices that are able, in principle, to detect and quantify the presence of specific nucleic acid sequences in complex biological mixtures. The measurement consists in detecting fluorescence signals from several spots on the microarray surface onto which different probe sequences are grafted. One of the problems of the data analysis is that the signal contains a noisy background component due to non-specific binding. This paper presents a physical model for background estimation in Affymetrix Genechips. It combines two different approaches. The first is based on the sequence composition, specifically its sequence dependent hybridization affinity. The second is based on the strong correlation of intensities from locations which are the physical neighbors of a specific spot on the chip. Both effects are incorporated in a background functional which contains 24 free parameters, fixed by minimization on a training data set. In all data analyzed the sequence specific parameters, obtained by minimization, are found to strongly correlate with empirically determined stacking free energies for RNA/DNA hybridization in solution. Moreover, there is an overall agreement with experimental background data and we show that the physics-based model proposed in this paper performs on average better than purely statistical approaches for background calculations. The model thus provides an interesting alternative method for background subtraction schemes in Affymetrix Genechips., Comment: 8 pages, 4 figures

Published
2007
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13. Thermodynamic behavior of short oligonucleotides in microarray hybridizations can be described using Gibbs free energy in a nearest-neighbor model

Author

Weckx, S., Carlon, E., De Vuyst, L., and Van Hummelen, P.

Subjects
Quantitative Biology - Biomolecules, Quantitative Biology - Quantitative Methods
Abstract

While designing oligonucleotide-based microarrays, cross-hybridization between surface-bound oligos and non-intended labeled targets is probably the most difficult parameter to predict. Although literature describes rules-of-thumb concerning oligo length, overall similarity, and continuous stretches, the final behavior is difficult to predict. The aim of this study was to investigate the effect of well-defined mismatches on hybridization specificity using CodeLink Activated Slides, and to study quantitatively the relation between hybridization intensity and Gibbs free energy (Delta G), taking the mismatches into account. Our data clearly showed a correlation between the hybridization intensity and Delta G of the oligos over three orders of magnitude for the hybridization intensity, which could be described by the Langmuir model. As Delta G was calculated according to the nearest-neighbor model, using values related to DNA hybridizations in solution, this study clearly shows that target-probe hybridizations on microarrays with a three-dimensional coating are in quantitative agreement with the corresponding reaction in solution. These results can be interesting for some practical applications. The correlation between intensity and Delta G can be used in quality control of microarray hybridizations by designing probes and corresponding RNA spikes with a range of Delta G values. Furthermore, this correlation might be of use to fine-tune oligonucleotide design algorithms in a way to improve the prediction of the influence of mismatching targets on microarray hybridizations., Comment: 32 pages on a single pdf file

Published
2007
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14. Stability domains of actin genes and genomic evolution

Author

Carlon, E., Dkhissi, A., Malki, M. Lejard, and Blossey, R.

Subjects
Quantitative Biology - Biomolecules, Condensed Matter - Statistical Mechanics, Physics - Biological Physics, Quantitative Biology - Populations and Evolution
Abstract

In eukaryotic genes the protein coding sequence is split into several fragments, the exons, separated by non-coding DNA stretches, the introns. Prokaryotes do not have introns in their genome. We report the calculations of stability domains of actin genes for various organisms in the animal, plant and fungi kingdoms. Actin genes have been chosen because they have been highly conserved during evolution. In these genes all introns were removed so as to mimic ancient genes at the time of the early eukaryotic development, i.e. before introns insertion. Common stability boundaries are found in evolutionary distant organisms, which implies that these boundaries date from the early origin of eukaryotes. In general boundaries correspond with introns positions of vertebrates and other animals actins, but not much for plants and fungi. The sharpest boundary is found in a locus where fungi, algae and animals have introns in positions separated by one nucleotide only, which identifies a hot-spot for insertion. These results suggest that some introns may have been incorporated into the genomes through a thermodynamic driven mechanism, in agreement with previous observations on human genes. They also suggest a different mechanism for introns insertion in plants and animals., Comment: 9 Pages, 7 figures. Phys. Rev. E in press

Published
2007
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15. Comment on: 'Solving the riddle of the bright mismatches: Labeling and effective binding in oligonucleotide arrays'

Author

Carlon, E., Heim, T., Wolterink, J. Klein, and Barkema, G. T.

Subjects
Quantitative Biology - Biomolecules, Condensed Matter - Soft Condensed Matter, Physics - Chemical Physics
Abstract

In a recent paper [Phys. Rev. E 68, 011906 (2003)], Naef and Magnasco suggested that the "bright" mismatches observed in Affymetrix microarray experiments are caused by the fluorescent molecules used to label RNA target sequences, which would impede target-probe hybridization. Their conclusion is based on the observation of "unexpected" asymmetries in the affinities obtained by fitting microarray data from publicly available experiments. We point out here that the observed asymmetry is due to the inequivalence of RNA and DNA, and that the reported affinities are consistent with stacking free energies obtained from melting experiments of unlabeled nucleic acids in solution. The conclusion of Naef and Magnasco is therefore based on an unjustified assumption., Comment: 2 pages

Published
2006
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16. Physics-based analysis of Affymetrix microarray data

Author

Heim, T., Tranchevent, L. -C., Carlon, E., and Barkema, G. T.

Subjects
Quantitative Biology - Biomolecules, Condensed Matter - Statistical Mechanics, Physics - Chemical Physics
Abstract

We analyze publicly available data on Affymetrix microarrays spike-in experiments on the human HGU133 chipset in which sequences are added in solution at known concentrations. The spike-in set contains sequences of bacterial, human and artificial origin. Our analysis is based on a recently introduced molecular-based model [E. Carlon and T. Heim, Physica A 362, 433 (2006)] which takes into account both probe-target hybridization and target-target partial hybridization in solution. The hybridization free energies are obtained from the nearest-neighbor model with experimentally determined parameters. The molecular-based model suggests a rescaling that should result in a "collapse" of the data at different concentrations into a single universal curve. We indeed find such a collapse, with the same parameters as obtained before for the older HGU95 chip set. The quality of the collapse varies according to the probe set considered. Artificial sequences, chosen by Affymetrix to be as different as possible from any other human genome sequence, generally show a much better collapse and thus a better agreement with the model than all other sequences. This suggests that the observed deviations from the predicted collapse are related to the choice of probes or have a biological origin, rather than being a problem with the proposed model., Comment: 11 pages, 10 figures

Published
2006
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17. Effective affinities in microarray data

Author

Heim, T., Wolterink, J. Klein, Carlon, E., and Barkema, G. T.

Subjects
Quantitative Biology - Biomolecules, Condensed Matter - Soft Condensed Matter, Physics - Chemical Physics
Abstract

In the past couple of years several studies have shown that hybridization in Affymetrix DNA microarrays can be rather well understood on the basis of simple models of physical chemistry. In the majority of the cases a Langmuir isotherm was used to fit experimental data. Although there is a general consensus about this approach, some discrepancies between different studies are evident. For instance, some authors have fitted the hybridization affinities from the microarray fluorescent intensities, while others used affinities obtained from melting experiments in solution. The former approach yields fitted affinities that at first sight are only partially consistent with solution values. In this paper we show that this discrepancy exists only superficially: a sufficiently complete model provides effective affinities which are fully consistent with those fitted to experimental data. This link provides new insight on the relevant processes underlying the functioning of DNA microarrays., Comment: 8 pages, 6 figures

Published
2006
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18. Magnetophoresis in the Rubinstein-Duke model

Author

Drzewinski, A., Carlon, E., and van Leeuwen, J. M. J.

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We consider the magnetophoresis problem within the Rubinstein-Duke model, i.e. a reptating polymer pulled by a constant field applied to a single repton at the edge of a chain. Extensive density matrix renormalization calculations are presented of the drift velocity and the profile of the chain for various strengths of the driving field and chain lengths. We show that the velocities and the average densities of stored length are well described by simple interpolating crossover formulae, derived under the assumption that the difference between the drift and curvilinear velocities vanishes for sufficiently long chains. The profiles, which describe the average shape of the reptating chain, also show interesting features as some non-monotonic behavior of the links densities for sufficiently strong pulling fields. We develop a description in which a distinction is made between links entering at the pulled head and at the unpulled tail. At weak fields the separation between the head zone and the tail zone meanders through the whole chain, while the probability of finding it close to the edges drops off. At strong fields the tail zone is confined to a small region close to the unpulled edge of the polymer., Comment: 8 pages, 9 figures

Published
2003
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19. Universality in the pair contact process with diffusion

Author

Barkema, G. T. and Carlon, E.

Subjects
Condensed Matter - Statistical Mechanics
Abstract

The pair contact process with diffusion is studied by means of multispin Monte Carlo simulations and density matrix renormalization group calculations. Effective critical exponents are found to behave nonmonotonically as functions of time or of system length and extrapolate asymptotically towards values consistent with the directed percolation universality class. We argue that an intermediate regime exists where the effective critical dynamics resembles that of a parity conserving process., Comment: 8 Pages, 9 figures, final version as published

Published
2003
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20. Inter-strand distance distribution of DNA near melting

Author

Baiesi, M., Carlon, E., Kafri, Y., Mukamel, D., Orlandini, E., and Stella, A. L.

Subjects
Condensed Matter - Statistical Mechanics, Condensed Matter - Soft Condensed Matter, Quantitative Biology
Abstract

The distance distribution between complementary base pairs of the two strands of a DNA molecule is studied near the melting transition. Scaling arguments are presented for a generalized Poland-Scheraga type model which includes self-avoiding interactions. At the transition temperature and for a large distance r the distribution decays as 1/r^\kappa with \kappa=1+(c-2)/ \nu. Here \nu is the self-avoiding walk correlation length exponent and c is the exponent associated with the entropy of an open loop in the chain. Results for the distribution function just below the melting point are also presented. Numerical simulations which fully take into account the self-avoiding interactions are in good agreement with the scaling approach., Comment: 6 pages

Published
2002
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21. Universal phase boundary shifts for corner wetting and filling

Author

Parry, A. O., Wood, A. J., Carlon, E., and Drzewiński, A.

Subjects
Condensed Matter - Statistical Mechanics, Condensed Matter - Soft Condensed Matter
Abstract

The phase boundaries for corner wetting (filling) in square and diagonal lattice Ising models are exactly determined and show a universal shift relative to wetting near the bulk criticality. More generally, scaling theory predicts that the filling phase boundary shift for wedges and cones is determined by a universal scaling function $R_d(\psi)$ depending only on the opening angle $2\psi$. $R_d(\psi)$ is determined exactly in $d=2$ and approximately in higher dimensions using non-classical local functional and mean-field theory. Detailed numerical transfer matrix studies of the the magnetisation profile in finite-size Ising squares support the conjectured connection between filling and the strong-fluctuation regime of wetting., Comment: 3 Figures, accepted for publication in PRL

Published
2001
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22. Interfacial adsorption in two-dimensional Potts models

Author

Carlon, E., Igloi, F., Selke, W., and Szalma, F.

Subjects
Condensed Matter
Abstract

The interfacial adsorption W at the first-order transition in two-dimensional q-state Potts models is studied. In particular, findings of Monte Carlo simulations and of density-matrix renormalization group calculations, at q= 16, are consistent with the analytic result, obtained in the Hamiltonian limit at large values of q, that W \propto t^{-1/3} on approach to the bulk critical temperature T_c, t=|T_c-T|/T_c. In addition, the numerical findings allow to estimate corrections to scaling. Our study supports and specifies a previous conclusion by Bricmont and Lebowitz based on low-temperature expansions., Comment: 7 pages, 4 figures, submitted to Journal of Statistical Physics

Published
1999
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33. Physical-chemistry-based analysis of Affymetrix microarray data

Author

Heim, T., Tranchevent, L.-C., Carlon, E., and Barkema, G.T.

Subjects
DNA microarrays -- Usage, Human genome -- Research, Hybridization -- Research, Genetic research, Chemicals, plastics and rubber industries
Abstract

Publicly available data on Affymetrix microarray spike-in experiments on the human HGU133 chipset in which sequences are added in solution at known concentrations are analyzed. Results suggest that the observed deviations from the predicted collapse are related to the choice of probes or have a biological origin rather than being a problem with the proposed model.

Published
2006

35. Fundamental Problems in Statistical Physics XIII Special Issue Preface

Author

Baiesi, M., Carlon, E., Parmeggiani, Andrea, Universita degli Studi di Padova, Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven), Laboratoire Charles Coulomb (L2C), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), Dynamique des interactions membranaires normales et pathologiques (DIMNP), Université Montpellier 1 (UM1)-Université Montpellier 2 - Sciences et Techniques (UM2)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), and Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM)-Université Montpellier 2 - Sciences et Techniques (UM2)-Université Montpellier 1 (UM1)

Subjects
[PHYS.PHYS.PHYS-BIO-PH]Physics [physics]/Physics [physics]/Biological Physics [physics.bio-ph], [PHYS.PHYS.PHYS-SOC-PH]Physics [physics]/Physics [physics]/Physics and Society [physics.soc-ph], [NLIN.NLIN-CG]Nonlinear Sciences [physics]/Cellular Automata and Lattice Gases [nlin.CG], [SDV.CAN]Life Sciences [q-bio]/Cancer, [SDV.BBM.MN]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular Networks [q-bio.MN], [SDV.BC.BC]Life Sciences [q-bio]/Cellular Biology/Subcellular Processes [q-bio.SC], [NLIN.NLIN-AO]Nonlinear Sciences [physics]/Adaptation and Self-Organizing Systems [nlin.AO]
Abstract

The 13th edition of the International Summer School on Fundamental Problems in Statistical Physics took place from June 16 to 29, 2013 for the third consecutive time in “European Center La Foresta” in Leuven, Belgium. This special issue of Physica A publishes the proceedings of the school.

Published
2015

36. Nonequilibrium Effects in DNA Microarrays: A Multiplatform Study

Author

Walter, J.-C., Kroll, K. M., Hooyberghs, J., and Carlon, E.

Abstract

It has recently been shown that in some DNA microarrays the time needed to reach thermal equilibrium may largely exceed the typical experimental time, which is about 15 h in standard protocols (Hooyberghs et al. Phys. Rev. E2010, 81, 012901). In this paper we discuss how this breakdown of thermodynamic equilibrium could be detected in microarray experiments without resorting to real time hybridization data, which are difficult to implement in standard experimental conditions. The method is based on the analysis of the distribution of fluorescence intensities Ifrom different spots for probes carrying base mismatches. In thermal equilibrium and at sufficiently low concentrations, log Iis expected to be linearly related to the hybridization free energy ΔGwith a slope equal to 1/RTexp, where Texpis the experimental temperature and Ris the gas constant. The breakdown of equilibrium results in the deviation from this law. A model for hybridization kinetics explaining the observed experimental behavior is discussed, the so-called 3-state model. It predicts that deviations from equilibrium yield a proportionality of log Ito ΔG/RTeff. Here, Teffis an “effective” temperature, higher than the experimental one. This behavior is indeed observed in some experiments on Agilent arrays [Hooyberghs et al. Phys. Rev. E2010, 81, 012901 and Hooyberghs et al. Nucleic Acids Res.2009, 37, e53]. We analyze experimental data from two other microarray platforms and discuss, on the basis of the results, the attainment of equilibrium in these cases. Interestingly, the same 3-state model predicts a (dynamical) saturation of the signal at values below the expected one at equilibrium.

Published
2024
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38. Life cycle analysis of small scale pellet boilers characterized by high efficiency and low emissions

Author

Monteleone, Beatrice, Chiesa, Maria, Marzuoli, Riccardo, Verma, V. K., Schwarz, M., Carlon, E., Schmidl, C., Ballarin Denti, Antonio Angelo, Chiesa, Maria (ORCID:0000-0002-5636-4212), Marzuoli, Riccardo (ORCID:0000-0001-5946-9530), Monteleone, Beatrice, Chiesa, Maria, Marzuoli, Riccardo, Verma, V. K., Schwarz, M., Carlon, E., Schmidl, C., Ballarin Denti, Antonio Angelo, Chiesa, Maria (ORCID:0000-0002-5636-4212), and Marzuoli, Riccardo (ORCID:0000-0001-5946-9530)

Abstract

This study focuses on the environmental impact assessment through Life Cycle Analysis (LCA) of two innovative 10 kW pellet boilers. In particular, the second boiler represents a technological evolution of the first one developed to improve its performance in terms of efficiency and environmental impact. For both boilers, emission factors measured during laboratory tests have been used as input data in the life cycle analysis. The pelletisation process represented the most relevant share of the overall environmental impact followed by the operational phase, the manufacturing phase and the disposal phase. A sensitivity analysis performed on the most efficient pellet boiler evidenced the variation of the boiler’s environmental as a function of PM10 and NOX emission factors with respect to emission factors monitored during boiler full load operation. Moreover, the reduction of the boiler’s weight and the adoption of new electronic components led to a consistent reduction (-18%) of its environmental impact with respect to the previous technology. A second LCA has been carried on for a 15 kW oil boiler, a 15 kW natural gas boiler and a 15 kW pellet boiler, representative of the state of the art of EU technology, to finally compare all LCA results. Results showed an overall environmental impact of pellet boilers in the range 14-21% with respect to the oil boiler impact while the natural gas boiler presented about 87% of the oil boiler impact. The SimaPro software (v.8.0.4.30) was used for the LCA and the ReCiPe Midpoint method (European version H) was chosen to assess the environmental impact of all boilers (according to LCA ISO standards). In addition, the ReCiPe Endpoint method was used to compare the final results of all 5 boilers with literature data.

Published
2015

39. Transfer-matrix study of the staggered body-centered solid-on-solid model

Author

Carlon, E., Mazzeo, G., van Beijeren, H., Condensed Matter Theory, Statistical and Computational Physics, Universiteit Utrecht, Dep Natuurkunde, Condensed Matter Theory, Statistical and Computational Physics, Universiteit Utrecht, and Dep Natuurkunde

Subjects
Physics, Theoretical physics, Phase line, Bounded function, Homogeneous space, Statistical physics, Renormalization group, Classical XY model, Transfer matrix, Scaling, Phase diagram
Abstract

The phase diagram of the staggered six vertex, or body centered solid on solid model, is investigated by transfer matrix and finite size scaling techniques. The phase diagram contains a critical region, bounded by a Kosterlitz-Thouless line, and a second order line describing a deconstruction transition. In part of the phase diagram the deconstruction line and the Kosterlitz-Thouless line approach each other without merging, while the deconstruction changes its critical behaviour from Ising-like to a different universality class. Our model has the same type of symmetries as some other two-dimensional models, such as the fully frustrated XY model, and may be important for understanding their phase behaviour. The thermal behaviour for weak staggering is intricate. It may be relevant for the description of surfaces of ionic crystals of CsCl structure.

Published
1997

40. Gasification of Large Size Wood Char Particles: Experimental Study and Calculation

Author

Carlon, E., Kleinhappl, M., and Rumpl, M.

Subjects
Biomass
Abstract

This work is presenting an experimental investigation of the reactivity of biomass chars during gasification. The test­rig is a drop­tube furnace in which wood char samples are gasified at different temperatures and in different reactive environments. Data analysis provides the experimental curves of overall mass conversion and conversion rate. A kinetic model is built up and calibrated with reference to the experimental data, in order to represent the mass transfer from solid to gas phase. The model is also describing the effect of the operating conditions (temperature, fractions of gasifiying agents) on the overall process. As a result, the time which is necessary to obtain the complete conversion is determined depending on the initial mass of char introduced in the reactor. Therefore this work provides a description of reactivity and mass conversion kinetics of large size wood­char particles., Proceedings of the 19th European Biomass Conference and Exhibition, 6-10 June 2011, Berlin, Germany, pp. 1440-1445

Published
2011
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41. Inverse Langmuir method for oligonucleotide microarray analysis

Author

Mulders, G.C.W.M., Barkema, G.T., Carlon, E., Instituut Theoretische Fysica, Theoretical Physics, and Sub Cond-Matter Theory, Stat & Comp Phys

Subjects
genetic structures, sense organs
Abstract

Background An algorithm for the analysis of Affymetrix Genechips is presented. This algorithm, referred to as the Inverse Langmuir Method (ILM), estimates the binding of transcripts to complementary probes using DNA/RNA hybridization free energies, and the hybridization between partially complementary transcripts in solution using RNA/RNA free energies. The balance between these two competing reactions allows for the translation of background-subtracted intensities into transcript concentrations. Results To validate the ILM, it is applied to publicly available microarray data from a multi-lab comparison study. Here, microarray experiments are performed on samples which deviate only in few genes. The log2 fold change between these two samples, as obtained from RT-PCR experiments, agrees well with the log2 fold change as obtained with the ILM, indicating that the ILM determines changes in the expression level accurately. We also show that the ILM allows for the identification of outlying probes, as it yields independent concentration estimates per probe. Conclusion The ILM is robust and offers an interesting alternative to purely statistical algorithms for microarray data analysis.

Published
2009

42. Linear model for fast background subtraction in oligonucleotide microarrays

Author

Kroll, K.M., Barkema, G.T., Carlon, E., Instituut Theoretische Fysica, Theoretical Physics, and Sub Cond-Matter Theory, Stat & Comp Phys

Abstract

Background One important preprocessing step in the analysis of microarray data is background subtraction. In high-density oligonucleotide arrays this is recognized as a crucial step for the global performance of the data analysis from raw intensities to expression values. Results We propose here an algorithm for background estimation based on a model in which the cost function is quadratic in a set of fitting parameters such that minimization can be performed through linear algebra. The model incorporates two effects: 1) Correlated intensities between neighboring features in the chip and 2) sequence-dependent affinities for non-specific hybridization fitted by an extended nearest-neighbor model. Conclusion The algorithm has been tested on 360 GeneChips from publicly available data of recent expression experiments. The algorithm is fast and accurate. Strong correlations between the fitted values for different experiments as well as between the free-energy parameters and their counterparts in aqueous solution indicate that the model captures a significant part of the underlying physical chemistry.

Published
2009

43. Modeling background intensity in DNA microarrays

Author

Kroll, K.M., Barkema, G.T., Carlon, E., Condensed Matter Theory, Statistical and Computational Physics, and Dep Natuurkunde

Abstract

DNA microarrays are devices that are able, in principle, to detect and quantify the presence of specific nucleic acid sequences in complex biological mixtures. The measurement consists in detecting fluorescence signals from several spots on the microarray surface onto which different probe sequences are grafted. One of the problems of the data analysis is that the signal contains a noisy background component due to nonspecific binding. We present a physical model for background estimation in Affymetrix Genechips. It combines two different approaches. The first is based on the sequence composition, specifically its sequence-dependent hybridization affinity. The second is based on the strong correlation of intensities from locations which are the physical neighbors of a specific spot on the chip. Both effects are incorporated in a background estimator which contains 24 free parameters, fixed by minimization on a training data set. In all data analyzed the sequence-specific parameters, obtained by minimization, are found to strongly correlate with empirically determined stacking free energies for RNA-DNA hybridization in solution. Moreover, there is an overall agreement with experimental background data and we show that the physics-based model that we propose performs on average better than purely statistical approaches for background calculations. The model thus provides an interesting alternative method for background subtraction schemes in Affymetrix Genechips.

Published
2008

46. Equilibrium shapes and faceting for ionic crystals of body-centered cubic type

Author

Carlon, E., van Beijeren, H., Quantum Gravity, Strings and Elementary Particles, Universiteit Utrecht, and Dep Natuurkunde

Abstract

A mean-field theory is developed for a calculation of the surface free energy of the staggered body-centered solid-on-solid (or six vertex) model as function of the surface orientation and temperature. The model approximately describes surfaces of crystals with nearest neighbor attractions, and next nearest neighbor repulsions. The mean-field free energy is calculated by expressing the model in terms of interacting directed walks on a lattice. The resulting equilibrium shape is very rich with facet boundaries and boundaries between reconstructed and unreconstructed regions, which can be either sharp (first order) or smooth (continuous). In addition, there are tricritical points where a smooth boundary changes into a sharp one, and triple points where three sharp boundaries meet. Finally our numerical results strongly suggest the existence of conical points, at which tangent planes of a finite range of orientations all intersect each other. The thermal evolution of the equilibrium shape in this model shows a strong similarity to that seen experimentally for ionic crystals.

Published
2000

47. Elastic lattice polymers

Author

Baiesi, M., Barkema, G.T., Carlon, E., Baiesi, M., Barkema, G.T., and Carlon, E.

Abstract

We study a model of “elastic” lattice polymer in which a fixed number of monomers m is hosted by a self-avoiding walk with fluctuating length l. We show that the stored length density m 1− l /m scales asymptotically for large m as m= 1− /m+. . . , where is the polymer entropic exponent, so that can be determined from the analysis of m. We perform simulations for elastic lattice polymer loops with various sizes and knots, in which we measure m. The resulting estimates support the hypothesis that the exponent is determined only by the number of prime knots and not by their type. However, if knots are present, we observe strong corrections to scaling, which help to understand how an entropic competition between knots is affected by the finite length of the chain.

Published
2010

48. Elastic lattice polymers

Author

Theoretical Physics, Sub Cond-Matter Theory, Stat & Comp Phys, Baiesi, M., Barkema, G.T., Carlon, E., Theoretical Physics, Sub Cond-Matter Theory, Stat & Comp Phys, Baiesi, M., Barkema, G.T., and Carlon, E.

Published
2010

49. Unwinding dynamics of double-stranded polymers

Author

Theoretical Physics, Sub Cond-Matter Theory, Stat & Comp Phys, Baiesi, M., Barkema, G.T., Carlon, E., Panja, D., Theoretical Physics, Sub Cond-Matter Theory, Stat & Comp Phys, Baiesi, M., Barkema, G.T., Carlon, E., and Panja, D.

Published
2010

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