Your search keyword '"Lukeš, P."' showing total 672 results

151. A Symmetric Integrator for non-integrable Hamiltonian Relativistic Systems

Author

Seyrich, Jonathan and Lukes-Gerakopoulos, Georgios

Subjects

General Relativity and Quantum Cosmology

Abstract

By combining a standard symmetric, symplectic integrator with a new step size controller, we provide an integration scheme that is symmetric, reversible and conserves the values of the constants of motion. This new scheme is appropriate for long term numerical integrations of geodesic orbits in spacetime backgrounds, whose corresponding Hamiltonian system is non-integrable, and, in general, for any non-integrable Hamiltonian system whose kinetic part depends on the position variables. We show by numerical examples that the new integrator is faster and more accurate i) than the standard symplectic integration schemes with or without standard adaptive step size controllers and ii) than an adaptive step Runge-Kutta scheme., Comment: 12 pages, 8 figures, 3 tables

Published

2012

152. The non-integrability of the Zipoy-Voorhees metric

Author

Lukes-Gerakopoulos, Georgios

Subjects

General Relativity and Quantum Cosmology

Abstract

The low frequency gravitational wave detectors like eLISA/NGO will give us the opportunity to test whether the supermassive compact objects lying at the centers of galaxies are indeed Kerr black holes. A way to do such a test is to compare the gravitational wave signals with templates of perturbed black hole spacetimes, the so-called bumpy black hole spacetimes. The Zipoy-Voorhees (ZV) spacetime (known also as the $\gamma$ spacetime) can be included in the bumpy black hole family, because it can be considered as a perturbation of the Schwarzschild spacetime background. Several authors have suggested that the ZV metric corresponds to an integrable system. Contrary to this integrability conjecture, in the present article it is shown by numerical examples that in general ZV belongs to the family of non-integrable systems., Comment: 10 pages, 13 figures

Published

2012

153. Ultrafast Photo-Induced Charge Transfer Unveiled by Two-Dimensional Electronic Spectroscopy

Author

Bixner, Oliver, Lukes, Vladimir, Mancal, Tomas, Hauer, Juergen, Milota, Franz, Fischer, Michael, Pugliesi, Igor, Bradler, Maximilian, Schmid, Walther, Riedle, Eberhard, Kauffmann, Harald F., and Christensson, Niklas

Subjects

Physics - Chemical Physics

Abstract

The interaction of exciton and charge transfer (CT) states plays a central role in photo-induced CT processes in chemistry, biology and physics. In this work, we use a combination of two-dimensional electronic spectroscopy (2D-ES), pump-probe measurements and quantum chemistry to investigate the ultrafast CT dynamics in a lutetium bisphthalocyanine dimer in different oxidation states. It is found that in the anionic form, the combination of strong CT-exciton interaction and electronic asymmetry induced by a counter-ion enables CT between the two macrocycles of the complex on a 30 fs timescale. Following optical excitation, a chain of electron and hole transfer steps gives rise to characteristic cross-peak dynamics in the electronic 2D spectra, and we monitor how the excited state charge density ultimately localizes on the macrocycle closest to the counter-ion within 100 fs. A comparison with the dynamics in the radical species further elucidates how CT states modulate the electronic structure and tune fs-reaction dynamics. Our experiments demonstrate the unique capability of 2D-ES in combination with other methods to decipher ultrafast CT dynamics., Comment: 14 pages, 11 figures, and Supporting information

Published

2012

154. Periodic Orbits and Escapes in Dynamical Systems

Author

Contopoulos, George, Harsoula, Mirella, and Lukes-Gerakopoulos, Georgios

Subjects

Nonlinear Sciences - Chaotic Dynamics, General Relativity and Quantum Cosmology

Abstract

We study the periodic orbits and the escapes in two different dynamical systems, namely (1) a classical system of two coupled oscillators, and (2) the Manko-Novikov metric (1992) which is a perturbation of the Kerr metric (a general relativistic system). We find their simple periodic orbits, their characteristics and their stability. Then we find their ordered and chaotic domains. As the energy goes beyond the escape energy, most chaotic orbits escape. In the first case we consider escapes to infinity, while in the second case we emphasize escapes to the central "bumpy" black hole. When the energy reaches its escape value a particular family of periodic orbits reaches an infinite period and then the family disappears (the orbit escapes). As this family approaches termination it undergoes an infinity of equal period and double period bifurcations at transitions from stability to instability and vice versa. The bifurcating families continue to exist beyond the escape energy. We study the forms of the phase space for various energies, and the statistics of the chaotic and escaping orbits. The proportion of these orbits increases abruptly as the energy goes beyond the escape energy., Comment: 28 pages, 23 figures, accepted in "Celestial Mechanics and Dynamical Astronomy"

Published

2012

155. Homogeneous Vapor Nucleation Using Isothermal Multibody Dissipative Particle Dynamics

Author

Chaudhri, Anuj and Lukes, Jennifer R.

Subjects

Condensed Matter - Statistical Mechanics, Physics - Computational Physics

Abstract

Homogeneous nucleation of a vapor bubble from a bulk metastable phase is studied here for the first time using the multibody dissipative particle dynamics model. The van der Waals equation of state is used to define a conservative force that describes the model fluid used in this study. Additional computational tools were developed to help visualize the vapor bubble formed in the system. Continuum thermodynamic ideas are used to help identify the bubble interface and separate particles that constitute the vapor bubble and bulk liquid regions respectively. Using this idea, the density variation is found to vary smoothly from the liquid to vapor regions in the system. The square-gradient term that arises from the free energy expansion of the density is found to have no significant effect on the radial local density variation., Comment: pp. 1-31, 7 figures

Published

2012

156. A Rayleigh B\'enard Convective Instability Study Using Energy Conserving Dissipative Particle Dynamics

Author

Chaudhri, Anuj and Lukes, Jennifer R.

Subjects

Condensed Matter - Statistical Mechanics, Physics - Computational Physics, Physics - Fluid Dynamics

Abstract

A Rayleigh B\'enard instability study using the energy conserving dissipative particle dynamics method is presented here for the first time. The simulation is performed on an ideal dissipative particle dynamics fluid in a three dimensional domain with carefully selected parameters to make the convection terms in the equation more dominant than the conduction ones. Beyond a critical temperature difference a two cell pattern is observed as the dominant structure. As the temperature is increased further, the density changes in the system are sharp with formation of distinct high density layers close to the cold wall. Doubling the length of the domain led to the formation of four convection cells with the same cell diameter as before, confirming the invariance of the pattern formation in that dimension. Changes in the height of the domain led to cells with more uniform looking patterns. The results and patterns seen here are qualitatively similar to previous studies performed on rarefied gases.

Published

2012

157. Orbits in a non-Kerr Dynamical System

Author

Contopoulos, G., Lukes-Gerakopoulos, G., and Apostolatos, T. A.

Subjects

General Relativity and Quantum Cosmology, Nonlinear Sciences - Chaotic Dynamics

Abstract

We study the orbits in a Manko-Novikov type metric (MN) which is a perturbed Kerr metric. There are periodic, quasi-periodic, and chaotic orbits, which are found in configuration space and on a surface of section for various values of the energy E and the z-component of the angular momentum Lz. For relatively large Lz there are two permissible regions of non-plunging motion bounded by two closed curves of zero velocity (CZV), while in the Kerr metric there is only one closed CZV of non-plunging motion. The inner permissible region of the MN metric contains mainly chaotic orbits, but it contains also a large island of stability. We find the positions of the main periodic orbits as functions of Lz and E, and their bifurcations. Around the main periodic orbit of the outer region there are islands of stability that do not appear in the Kerr metric. In a realistic binary system, because of the gravitational radiation, the energy E and the angular momentum Lz of an inspiraling compact object decrease and therefore the orbit of the object is non-geodesic. In fact in an EMRI system the energy E and the angular momentum Lz decrease adiabatically and therefore the motion of the inspiraling object is characterized by the fundamental frequencies which are drifting slowly in time. In the Kerr metric the ratio of the fundamental frequencies changes strictly monotonically in time. However, in the MN metric when an orbit is trapped inside an island the ratio of the fundamental frequencies remains constant for some time. Hence, if such a phenomenon is observed this will indicate that the system is non integrable and therefore the central object is not a Kerr black hole., Comment: 19 pages, 18 figures

Published

2011

158. Method comparison of indirect assessments of understory leaf area index (LAIu): A case study across the extended network of ICOS forest ecosystem sites in Europe

Author

Jan-Peter George, Wei Yang, Hideki Kobayashi, Tobias Biermann, Arnaud Carrara, Edoardo Cremonese, Matthias Cuntz, Silvano Fares, Giacomo Gerosa, Thomas Grünwald, Niklas Hase, Michael Heliasz, Andreas Ibrom, Alexander Knohl, Bart Kruijt, Holger Lange, Jean-Marc Limousin, Denis Loustau, Petr Lukeš, Riccardo Marzuoli, Meelis Mölder, Leonardo Montagnani, Johan Neirynck, Matthias Peichl, Corinna Rebmann, Marius Schmidt, Francisco Ramon Lopez Serrano, Kamel Soudani, Caroline Vincke, and Jan Pisek

Subjects

Forest background reflectivity, Fractional vegetation cover, Leaf area index, NDVI, Simple ratio, Diversity, Ecology, QH540-549.5

Abstract

Leaf area index (LAI) is a key ecological indicator for describing the structure of canopies and for modelling energy exchange between atmosphere and biosphere. While LAI of the forest overstory can be accurately assessed over large spatial scales via remote sensing, LAI of the forest understory (LAIu) is still largely ignored in ecological studies and ecosystem modelling due to the fact that it is often too complex to be destructively sampled or approximated by other site parameters. Additionally, so far only few attempts have been made to retrieve understory LAI via remote sensing, because dense canopies with high LAI are often hindering retrieval algorithms to produce meaningful estimates for understory LAI. Consequently, the forest understory still constitutes a poorly investigated research realm impeding ecological studies to properly account for its contribution to the energy absorption capacity of forest stands. This study aims to compare three conceptually different indirect retrieval methodologies for LAIu over a diverse panel of forest understory types distributed across Europe. For this we carried out near-to-surface measurements of understory reflectance spectra as well as digital surface photography over the extended network of Integrated Carbon Observation System (ICOS) forest ecosystem sites. LAIu was assessed by exploiting the empirical relationship between vegetation cover and light absorption (Beer-Lambert- Bouguer law) as well as by utilizing proposed relationships with two prominent vegetation indices: normalized difference vegetation index (NDVI) and simple ratio (SR). Retrievals from the three methods were significantly correlated with each other (r = 0.63–0.99, RMSE = 0.53–0.72), but exhibited also significant bias depending on the LAI scale. The NDVI based retrieval approach most likely overestimates LAI at productive sites when LAIu > 2, while the simple ratio algorithm overestimates LAIu at sites with sparse understory vegetation and presence of litter or bare soil. The purely empirical method based on the Beer-Lambert law of light absorption seems to offer a good compromise, since it provides reasonable LAIu values at both low and higher LAI ranges. Surprisingly, LAIu variation among sites seems to be largely decoupled from differences in climate and light permeability of the overstory, but significantly increased with vegetation diversity (expressed as species richness) and hence proposes new applications of LAIu in ecological modelling.

Published

2021

159. Early detection of bark beetle infestation in Norway spruce forests of Central Europe using Sentinel-2

Author

Vojtěch Bárta, Petr Lukeš, and Lucie Homolová

Subjects

Sentinel-2, Time series, Green attack, Norway spruce, Bark beetle, Ips typographus, Physical geography, GB3-5030, Environmental sciences, GE1-350

Abstract

In the past decade, massive outbreaks of bark beetles (Ips spp.) have caused large-scale decline of coniferous-dominated, prevailingly managed forests of Central Europe. Timely detection of newly infested trees is important for minimizing economic losses and effectively planning forest management activities to stop or at least slow outbreaks. With the advancement of Copernicus services, a pair of Sentinel-2 satellites provides a unique remote sensing data source of multi-temporal observations in high spatial resolution on the scale of individual forest stands (although not allowing for individual tree detection). This study investigates the potential for using seasonal trajectories of Sentinel-2 bands and selected vegetation indices in early detection of bark beetle infestation (so–called green-attack stage detection) in Norway spruce monoculture forests in the Czech Republic. Spectral trajectories of nine bands and six vegetation indices were constructed for the 2018 vegetation season using 14 satellite observations from April to November to distinguish four infestation classes. We used a random forest algorithm to classify healthy (i.e., stands not infested) and infested trees with various trajectories of decay. The seasonal trajectories of vegetation indices separated the infestation classes better than did the individual bands. Among the most promising vegetation indices we identified the tasselled cap wetness (TCW) component and normalized difference index constructed from near and shortwave infrared bands. Analysing the inter-annual change of the indices was more promising for early detection than is single-date classification. It achieved 96% classification accuracy on day of year 291 for the tested data set. The algorithm for early detection of tree infestation based on the assessment of seasonal changes in TCW was applied on the time series of Sentinel-2 observations from 2019 and its outputs were verified using field observations of forest conditions conducted on 80 spruce forest plots (located in spruce monoculture stands). The overall accuracy of 78% was achieved for the separation of healthy and green-attack classes. Our study highlights the great potential of multi-temporal remote sensing and the use of shortwave infrared wavelengths for early detection of spruce forest decline caused by bark beetle infestation.

Published

2021

160. A New Model Trypanosomatid, Novymonas esmeraldas: Genomic Perception of Its 'Candidatus Pandoraea novymonadis' Endosymbiont

Author

Alexandra Zakharova, Andreu Saura, Anzhelika Butenko, Lucie Podešvová, Sandra Warmusová, Alexei Yu. Kostygov, Anna Nenarokova, Julius Lukeš, Fred R. Opperdoes, and Vyacheslav Yurchenko

Subjects

Trypanosomatidae, Leishmaniinae, bacterial endosymbiont, genomics, metabolism, Microbiology, QR1-502

Abstract

ABSTRACT The closest relative of human pathogen Leishmania, the trypanosomatid Novymonas esmeraldas, harbors a bacterial endosymbiont “Candidatus Pandoraea novymonadis.” Based on genomic data, we performed a detailed characterization of the metabolic interactions of both partners. While in many respects the metabolism of N. esmeraldas resembles that of other Leishmaniinae, the endosymbiont provides the trypanosomatid with heme, essential amino acids, purines, some coenzymes, and vitamins. In return, N. esmeraldas shares with the bacterium several nonessential amino acids and phospholipids. Moreover, it complements its carbohydrate metabolism and urea cycle with enzymes missing from the “Ca. Pandoraea novymonadis” genome. The removal of the endosymbiont from N. esmeraldas results in a significant reduction of the overall translation rate, reduced expression of genes involved in lipid metabolism and mitochondrial respiratory activity, and downregulation of several aminoacyl-tRNA synthetases, enzymes involved in the synthesis of some amino acids, as well as proteins associated with autophagy. At the same time, the genes responsible for protection against reactive oxygen species and DNA repair become significantly upregulated in the aposymbiotic strain of this trypanosomatid. By knocking out a component of its flagellum, we turned N. esmeraldas into a new model trypanosomatid that is amenable to genetic manipulation using both conventional and CRISPR-Cas9-mediated approaches. IMPORTANCE Novymonas esmeraldas is a parasitic flagellate of the family Trypanosomatidae representing the closest insect-restricted relative of the human pathogen Leishmania. It bears symbiotic bacteria in its cytoplasm, the relationship with which has been established relatively recently and independently from other known endosymbioses in protists. Here, using the genome analysis and comparison of transcriptomic profiles of N. esmeraldas with and without the endosymbionts, we describe a uniquely complex cooperation between both partners on the biochemical level. We demonstrate that the removal of bacteria leads to a decelerated growth of N. esmeraldas, substantial suppression of many metabolic pathways, and increased oxidative stress. Our success with the genetic transformation of this flagellate makes it a new model trypanosomatid species that can be used for the dissection of mechanisms underlying the symbiotic relationships between protists and bacteria.

Published

2021

161. Vibrational wave packet induced oscillations in two-dimensional electronic spectra. II. Theory

Author

Mancal, Tomas, Nemeth, Alexandra, Milota, Franz, Lukes, Vladimir, Kauffmann, Harald F., and Sperling, Jaroslaw

Subjects

Physics - Chemical Physics

Abstract

We present a theory of vibrational modulation of two-dimensional coherent Fourier transformed electronic spectra. Based on an expansion of the system's energy gap correlation function in terms of Huang-Rhys factors, we explain the time-dependent oscillatory behavior of the absorptive and dispersive parts of two-dimensional spectra of a two-level electronic system, weakly coupled to intramolecular vibrational modes. The theory predicts oscillations in the relative amplitudes of the rephasing and non-rephasing parts of the two-dimensional spectra, and enables to analyze time dependent two-dimensional spectra in terms of simple elementary components whose line-shapes are dictated by the interaction of the system with the solvent only. The theory is applicable to both low and high energy (with respect to solvent induced line broadening) vibrations. The results of this paper enable to qualitatively explain experimental observations on low energy vibrations presented in the preceding paper [A. Nemeth et al, arXiv:1003.4174v1] and to predict the time evolution of two-dimensional spectra in ultrafast ultrabroad band experiments on systems with high energy vibrations., Comment: 14 pages, 9 figures

Published

2010

162. Vibrational wave packet induced oscillations in two-dimensional electronic spectra. I. Experiments

Author

Nemeth, Alexandra, Milota, Franz, Mancal, Tomas, Lukes, Vladimir, Hauer, Juergen, Kauffmann, Harald F., and Sperling, Jaroslaw

Subjects

Physics - Chemical Physics

Abstract

This is the first in a series of two papers investigating the effect of electron-phonon coupling in two-dimensional Fourier transformed electronic spectroscopy. We present a series of one- and two-dimensional nonlinear spectroscopic techniques for studying a dye molecule in solution. Ultrafast laser pulse excitation of an electronic transition coupled to vibrational modes induces a propagating vibrational wave packet that manifests itself in oscillating signal intensities and line-shapes. For the two-dimensional electronic spectra we can attribute the observed modulations to periodic enhancement and decrement of the relative amplitudes of rephasing and non-rephasing contributions to the total response. Different metrics of the two-dimensional signals are shown to relate to the frequency-frequency correlation function which provides the connection between experimentally accessible observations and the underlying microscopic molecular dynamics. A detailed theory of the time-dependent two-dimensional spectral line-shapes is presented in the accompanying paper [T. Mancal et al., arXiv:1003.xxxx]., Comment: 13 pages, 8 figures

Published

2010

163. An observable signature of a background deviating from Kerr

Author

Lukes-Gerakopoulos, Georgios, Apostolatos, Theocharis A., and Contopoulos, George

Subjects

General Relativity and Quantum Cosmology

Abstract

By detecting gravitational wave signals from extreme mass ratio inspiraling sources (EMRIs) we will be given the opportunity to check our theoretical expectations regarding the nature of supermassive bodies that inhabit the central regions of galaxies. We have explored some qualitatively new features that a perturbed Kerr metric induces in its geodesic orbits. Since a generic perturbed Kerr metric does not possess all the special symmetries of a Kerr metric, the geodesic equations in the former case are described by a slightly nonintegrable Hamiltonian system. According to the Poincar\'{e}-Birkhoff theorem this causes the appearance of the so-called Birkhoff chains of islands on the corresponding surfaces of section in between the anticipated KAM curves of the integrable Kerr case, whenever the intrinsic frequencies of the system are at resonance. The chains of islands are characterized by finite width, i.e. there is a finite range of initial conditions that correspond to a particular resonance and consequently to a constant rational ratio of intrinsic frequencies. Thus while the EMRI changes adiabatically by radiating energy and angular momentum, by monitoring the frequencies of a signal we can look for a transient pattern, in the form of a plateau, in the evolution of their ratio. We have shown that such a plateau is anticipated to be apparent in a quite large fraction of possible orbital characteristics if the central gravitating source is not a Kerr black hole. Moreover the plateau in the ratio of frequencies is expected to be more prominent at specific rational values that correspond to the strongest resonances. This gives a possible observational detection of such non-Kerr exotic objects., Comment: 25 pages, 15 figures

Published

2010

164. How to observe a non-Kerr spacetime

Author

Apostolatos, Theocharis A., Lukes-Gerakopoulos, Georgios, and Contopoulos, George

Subjects

General Relativity and Quantum Cosmology

Abstract

We present a generic criterion which can be used in gravitational-wave data analysis to distinguish an extreme-mass-ratio inspiral into a Kerr background spacetime from one into a non-Kerr background spacetime. The criterion exploits the fact that when an integrable system, such as the system that describes geodesic orbits in a Kerr spacetime, is perturbed, the tori in phase space which initially corresponded to resonances disintegrate so as to form the so called Birkhoff chains on a surface of section, according to the Poincar\'{e}-Birkhoff theorem. The KAM curves of these islands in such a chain share the same ratio of frequencies, even though the frequencies themselves vary from one KAM curve to another inside an island. On the other hand, the KAM curves, which do not lie in a Birkhoff chain, do not share this characteristic property. Such a temporal constancy of the ratio of frequencies during the evolution of the gravitational-wave signal will signal a non-Kerr spacetime which could then be further explored., Comment: 4 pages, 2 figures

Published

2009

165. Identification and Validation of Compounds Targeting Leishmania major Leucyl-Aminopeptidase M17.

Author

Aguado, Mirtha E., Carvalho, Sandra, Valdés-Tresanco, Mario E., Lin, De, Padilla-Mejia, Norma, Corpas-Lopez, Victoriano, Tesařová, Martina, Lukeš, Julius, Gray, David, González-Bacerio, Jorge, Wyllie, Susan, and Field, Mark C.

Published

2024

166. 1D finite element for modelling of turbine blade vibration in the field of centrifugal forces

Author

Dupal J., Zajíček M., and Lukeš V.

Subjects

blade finite element, rotor speed, warping function, natural frequencies, Mechanics of engineering. Applied mechanics, TA349-359

Abstract

The paper deals with the modelling of turbine blade vibrations by means of a novel 1D finite element that has only 16 degrees of freedom. Assuming linear elastic behaviour of the blade material and considering small displacements and strains, the derived blade finite element takes into account the effects of tension, torsion and bending in accordance with the Bernoulli’s hypothesis. Additionally, the finite element interlinks bending and torsion, and respects membrane forces acting on the blade. The derivation of matrices and vectors describing the blade finite element is provided in detail by using the Lagrange’s equations while the effect of membrane forces is included via the virtual work principle. For modelling purposes, the mathematical model of a turbine blade requires only the knowledge of cross-section contour points at several selected sections along the turbine blade axis. On the basis of these points, cross section characteristics including the warping function ar e approximated along the blade axis by means of cubic splines. The advantage of this approach lies in the fact that all the blade cross section parameters are identified before running numerical simulations. The warping function introduced in this paper and derived by variational principle describes cross section warping caused just by torsion of a prismatic rod. For the verification of the proposed 1D finite element, an analysis of modal properties of the turbine blade M6 L-1 manufactured by ŠKODA-Doosan Pilsen is performed. This is achieved by comparing the lowest natural frequencies and corresponding mode shapes computed by the 1D and 3D models for a standing blade. The results revealed good agreement between both models despite the significant difference in their degrees of freedom. The applicability of the 1D finite element is further demonstrated by analyzing the dependence of natural frequencies on rotor speed.

Published

2019

167. Comparative genomics of Leishmania (Mundinia)

Author

Anzhelika Butenko, Alexei Y. Kostygov, Jovana Sádlová, Yuliya Kleschenko, Tomáš Bečvář, Lucie Podešvová, Diego H. Macedo, David Žihala, Julius Lukeš, Paul A. Bates, Petr Volf, Fred R. Opperdoes, and Vyacheslav Yurchenko

Subjects

Whole genome sequencing, Leishmania (Mundinia) enriettii, L. (M.) macropodum, L. (M.) martiniquensis, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Trypanosomatids of the genus Leishmania are parasites of mammals or reptiles transmitted by bloodsucking dipterans. Many species of these flagellates cause important human diseases with clinical symptoms ranging from skin sores to life-threatening damage of visceral organs. The genus Leishmania contains four subgenera: Leishmania, Sauroleishmania, Viannia, and Mundinia. The last subgenus has been established recently and remains understudied, although Mundinia contains human-infecting species. In addition, it is interesting from the evolutionary viewpoint, representing the earliest branch within the genus and possibly with a different type of vector. Here we analyzed the genomes of L. (M.) martiniquensis, L. (M.) enriettii and L. (M.) macropodum to better understand the biology and evolution of these parasites. Results All three genomes analyzed were approximately of the same size (~ 30 Mb) and similar to that of L. (Sauroleishmania) tarentolae, but smaller than those of the members of subgenera Leishmania and Viannia, or the genus Endotrypanum (~ 32 Mb). This difference was explained by domination of gene losses over gains and contractions over expansions at the Mundinia node, although only a few of these genes could be identified. The analysis predicts significant changes in the Mundinia cell surface architecture, with the most important ones relating to losses of LPG-modifying side chain galactosyltransferases and arabinosyltransferases, as well as β-amastins. Among other important changes were gene family contractions for the oxygen-sensing adenylate cyclases and FYVE zinc finger-containing proteins. Conclusions We suggest that adaptation of Mundinia to different vectors and hosts has led to alternative host-parasite relationships and, thereby, made some proteins redundant. Thus, the evolution of genomes in the genus Leishmania and, in particular, in the subgenus Mundinia was mainly shaped by host (or vector) switches.

Published

2019

168. Dynamics and constraints of the Unified Dark Matter flat cosmologies

Author

Basilakos, S. and Lukes-Gerakopoulos, G.

Subjects

Astrophysics

Abstract

We study the dynamics of the scalar field FLRW flat cosmological models within the framework of the Unified Dark Matter (UDM) scenario. In this model we find that the main cosmological functions such as the scale factor of the Universe, the scalar field, the Hubble flow and the equation of state parameter are defined in terms of hyperbolic functions. These analytical solutions can accommodate an accelerated expansion, equivalent to either the dark energy or the standard $\Lambda$ models. Performing a joint likelihood analysis of the recent supernovae type Ia data and the Baryonic Acoustic Oscillations traced by the SDSS galaxies, we place tight constraints on the main cosmological parameters of the UDM cosmological scenario. Finally, we compare the UDM scenario with various dark energy models namely $\Lambda$ cosmology, parametric dark energy model and variable Chaplygin gas. We find that the UDM scalar field model provides a large and small scale dynamics which are in fair agreement with the predictions by the above dark energy models although there are some differences especially at high redshifts., Comment: 11 pages, 7 figures, published in Physical Review D, 78, 083509, (2008)

Published

2008

169. Transcriptome, proteome and draft genome of Euglena gracilis

Author

ThankGod E. Ebenezer, Martin Zoltner, Alana Burrell, Anna Nenarokova, Anna M. G. Novák Vanclová, Binod Prasad, Petr Soukal, Carlos Santana-Molina, Ellis O’Neill, Nerissa N. Nankissoor, Nithya Vadakedath, Viktor Daiker, Samson Obado, Sara Silva-Pereira, Andrew P. Jackson, Damien P. Devos, Julius Lukeš, Michael Lebert, Sue Vaughan, Vladimίr Hampl, Mark Carrington, Michael L. Ginger, Joel B. Dacks, Steven Kelly, and Mark C. Field

Subjects

Euglena gracilis, Transcriptome, Cellular evolution, Plastid, Horizontal gene transfer, Gene architecture, Biology (General), QH301-705.5

Abstract

Abstract Background Photosynthetic euglenids are major contributors to fresh water ecosystems. Euglena gracilis in particular has noted metabolic flexibility, reflected by an ability to thrive in a range of harsh environments. E. gracilis has been a popular model organism and of considerable biotechnological interest, but the absence of a gene catalogue has hampered both basic research and translational efforts. Results We report a detailed transcriptome and partial genome for E. gracilis Z1. The nuclear genome is estimated to be around 500 Mb in size, and the transcriptome encodes over 36,000 proteins and the genome possesses less than 1% coding sequence. Annotation of coding sequences indicates a highly sophisticated endomembrane system, RNA processing mechanisms and nuclear genome contributions from several photosynthetic lineages. Multiple gene families, including likely signal transduction components, have been massively expanded. Alterations in protein abundance are controlled post-transcriptionally between light and dark conditions, surprisingly similar to trypanosomatids. Conclusions Our data provide evidence that a range of photosynthetic eukaryotes contributed to the Euglena nuclear genome, evidence in support of the ‘shopping bag’ hypothesis for plastid acquisition. We also suggest that euglenids possess unique regulatory mechanisms for achieving extreme adaptability, through mechanisms of paralog expansion and gene acquisition.

Published

2019

170. Dynamics and chaos in the unified scalar field Cosmology

Author

Lukes-Gerakopoulos, Georgios, Basilakos, Spyros, and Contopoulos, George

Subjects

Astrophysics

Abstract

We study the dynamics of the closed scalar field FRW cosmological models in the framework of the so called Unified Dark Matter (UDM) scenario. Performing a theoretical as well as a numerical analysis we find that there is a strong indication of chaos in agreement with previous studies. We find that a positive value of the spatial curvature is essential for the appearance of chaoticity, though the Lyapunov number seems to be independent of the curvature value. Models that are close to flat exhibit a chaotic behavior after a long time while pure flat models do not exhibit any chaos. Moreover, we find that some of the semiflat models in the UDM scenario exhibit similar dynamical behavior with the Lambda cosmology despite their chaoticity. Finally, we compare the measured evolution of the Hubble parameter derived from the differential ages of passively evolving galaxies with that expected in the semiflat unified scalar field cosmology. Based on a specific set of initial conditions we find that the UDM scalar field model matches well the observational data., Comment: 9 pages, 5 figures, accepted for publication by Phys. Rev. D

Published

2008

171. The production of Tsallis entropy in the limit of weak chaos and a new indicator of chaoticity

Author

Lukes-Gerakopoulos, G., Voglis, N., and Efthymiopoulos, C.

Subjects

Nonlinear Sciences - Chaotic Dynamics

Abstract

We study the connection between the appearance of a `metastable' behavior of weakly chaotic orbits, characterized by a constant rate of increase of the Tsallis q-entropy (Tsallis 1988), and the solutions of the variational equations of motion for the same orbits. We demonstrate that the variational equations yield transient solutions, lasting for long time intervals, during which the length of deviation vectors of nearby orbits grows in time almost as a power-law. The associated power exponent can be simply related to the entropic exponent for which the q-entropy exhibits a constant rate of increase. This analysis leads to the definition of a new sensitive indicator distinguishing regular from weakly chaotic orbits, that we call `Average Power Law Exponent' (APLE). We compare the APLE with other established indicators of the literature. In particular, we give examples of application of the APLE in a) a thin separatrix layer of the standard map, b) the stickiness region around an island of stability in the same map, and c) the web of resonances of a 4D symplectic map. In all these cases we identify weakly chaotic orbits exhibiting the `metastable' behavior associated with the Tsallis q-entropy., Comment: 19 pages, 12 figures, accepted for publication by Physica A

Published

2007

172. Electron & Biomass Dynamics of Cyanothece Under Interacting Nitrogen & Carbon Limitations

Author

Sophie Rabouille, Douglas A. Campbell, Takako Masuda, Tomáš Zavřel, Gábor Bernát, Lubos Polerecky, Kimberly Halsey, Meri Eichner, Eva Kotabová, Susanne Stephan, Martin Lukeš, Pascal Claquin, José Bonomi-Barufi, Ana Teresa Lombardi, Jan Červený, David J. Suggett, Mario Giordano, Jacco C. Kromkamp, and Ondřej Prášil

Subjects

Cyanothece, Crocosphaera subtropica, photosynthesis, light limitation, carbon limitation, nitrogen fixation, Microbiology, QR1-502

Abstract

Marine diazotrophs are a diverse group with key roles in biogeochemical fluxes linked to primary productivity. The unicellular, diazotrophic cyanobacterium Cyanothece is widely found in coastal, subtropical oceans. We analyze the consequences of diazotrophy on growth efficiency, compared to NO3–-supported growth in Cyanothece, to understand how cells cope with N2-fixation when they also have to face carbon limitation, which may transiently affect populations in coastal environments or during blooms of phytoplankton communities. When grown in obligate diazotrophy, cells face the double burden of a more ATP-demanding N-acquisition mode and additional metabolic losses imposed by the transient storage of reducing potential as carbohydrate, compared to a hypothetical N2 assimilation directly driven by photosynthetic electron transport. Further, this energetic burden imposed by N2-fixation could not be alleviated, despite the high irradiance level within the cultures, because photosynthesis was limited by the availability of dissolved inorganic carbon (DIC), and possibly by a constrained capacity for carbon storage. DIC limitation exacerbates the costs on growth imposed by nitrogen fixation. Therefore, the competitive efficiency of diazotrophs could be hindered in areas with insufficient renewal of dissolved gases and/or with intense phytoplankton biomass that both decrease available light energy and draw the DIC level down.

Published

2021

173. Euglenozoa: taxonomy, diversity and ecology, symbioses and viruses

Author

Alexei Y. Kostygov, Anna Karnkowska, Jan Votýpka, Daria Tashyreva, Kacper Maciszewski, Vyacheslav Yurchenko, and Julius Lukeš

Subjects

euglenida, kinetoplastida, diplonemida, microbial eukaryotes, systematics, phylogeny, Biology (General), QH301-705.5

Abstract

Euglenozoa is a species-rich group of protists, which have extremely diverse lifestyles and a range of features that distinguish them from other eukaryotes. They are composed of free-living and parasitic kinetoplastids, mostly free-living diplonemids, heterotrophic and photosynthetic euglenids, as well as deep-sea symbiontids. Although they form a well-supported monophyletic group, these morphologically rather distinct groups are almost never treated together in a comparative manner, as attempted here. We present an updated taxonomy, complemented by photos of representative species, with notes on diversity, distribution and biology of euglenozoans. For kinetoplastids, we propose a significantly modified taxonomy that reflects the latest findings. Finally, we summarize what is known about viruses infecting euglenozoans, as well as their relationships with ecto- and endosymbiotic bacteria.

Published

2021

174. Temporal Patterns and Intra- and Inter-Cellular Variability in Carbon and Nitrogen Assimilation by the Unicellular Cyanobacterium Cyanothece sp. ATCC 51142

Author

Lubos Polerecky, Takako Masuda, Meri Eichner, Sophie Rabouille, Marie Vancová, Michiel V. M. Kienhuis, Gabor Bernát, Jose Bonomi-Barufi, Douglas Andrew Campbell, Pascal Claquin, Jan Červený, Mario Giordano, Eva Kotabová, Jacco Kromkamp, Ana Teresa Lombardi, Martin Lukeš, Ondrej Prášil, Susanne Stephan, David Suggett, Tomas Zavřel, and Kimberly H. Halsey

Subjects

Crocosphaera subtropica (former Cyanothece sp. ATCC 51142), Cyanothece, photosynthesis, carbon fixation, nitrogen fixation, nanoSIMS, Microbiology, QR1-502

Abstract

Unicellular nitrogen fixing cyanobacteria (UCYN) are abundant members of phytoplankton communities in a wide range of marine environments, including those with rapidly changing nitrogen (N) concentrations. We hypothesized that differences in N availability (N2 vs. combined N) would cause UCYN to shift strategies of intracellular N and C allocation. We used transmission electron microscopy and nanoscale secondary ion mass spectrometry imaging to track assimilation and intracellular allocation of 13C-labeled CO2 and 15N-labeled N2 or NO3 at different periods across a diel cycle in Cyanothece sp. ATCC 51142. We present new ideas on interpreting these imaging data, including the influences of pre-incubation cellular C and N contents and turnover rates of inclusion bodies. Within cultures growing diazotrophically, distinct subpopulations were detected that fixed N2 at night or in the morning. Additional significant within-population heterogeneity was likely caused by differences in the relative amounts of N assimilated into cyanophycin from sources external and internal to the cells. Whether growing on N2 or NO3, cells prioritized cyanophycin synthesis when N assimilation rates were highest. N assimilation in cells growing on NO3 switched from cyanophycin synthesis to protein synthesis, suggesting that once a cyanophycin quota is met, it is bypassed in favor of protein synthesis. Growth on NO3 also revealed that at night, there is a very low level of CO2 assimilation into polysaccharides simultaneous with their catabolism for protein synthesis. This study revealed multiple, detailed mechanisms underlying C and N management in Cyanothece that facilitate its success in dynamic aquatic environments.

Published

2021

175. Distribution of Merlin in eukaryotes and first report of DNA transposons in kinetoplastid protists.

Author

Ana Luisa Kalb Lopes, Eva Kriegová, Julius Lukeš, Marco Aurélio Krieger, and Adriana Ludwig

Subjects

Medicine, Science

Abstract

DNA transposons are defined as repeated DNA sequences that can move within the host genome through the action of transposases. The transposon superfamily Merlin was originally found mainly in animal genomes. Here, we describe a global distribution of the Merlin in animals, fungi, plants and protists, reporting for the first time their presence in Rhodophyceae, Metamonada, Discoba and Alveolata. We identified a great variety of potentially active Merlin families, some containing highly imperfect terminal inverted repeats and internal tandem repeats. Merlin-related sequences with no evidence of mobilization capacity were also observed and may be products of domestication. The evolutionary trees support that Merlin is likely an ancient superfamily, with early events of diversification and secondary losses, although repeated re-invasions probably occurred in some groups, which would explain its diversity and discontinuous distribution. We cannot rule out the possibility that the Merlin superfamily is the product of multiple horizontal transfers of related prokaryotic insertion sequences. Moreover, this is the first account of a DNA transposon in kinetoplastid flagellates, with conserved Merlin transposase identified in Bodo saltans and Perkinsela sp., whereas it is absent in trypanosomatids. Based on the level of conservation of the transposase and overlaps of putative open reading frames with Merlin, we propose that in protists it may serve as a raw material for gene emergence.

Published

2021

176. The Importance of the 45 S Ribosomal Small Subunit-related Complex for Mitochondrial Translation in Trypanosoma brucei *

Author

Ridlon, Lucie, Škodová, Ingrid, Pan, Songqin, Lukeš, Julius, and Maslov, Dmitri A

Subjects

Biochemistry and Cell Biology, Biological Sciences, Vector-Borne Diseases, Genetics, Infectious Diseases, Generic health relevance, Gene Knockdown Techniques, Mitochondria, Mitochondrial Proteins, Multiprotein Complexes, Protein Biosynthesis, Protozoan Proteins, RNA Editing, RNA, Messenger, RNA, Protozoan, Ribosomal Proteins, Ribosome Subunits, Small, Trypanosoma brucei brucei, Protein Synthesis, Ribonuclear Protein, Trypanosoma brucei, Trypanosome, Leish, Chemical Sciences, Medical and Health Sciences, Biochemistry & Molecular Biology, Biological sciences, Biomedical and clinical sciences, Chemical sciences

Abstract

The mitochondrial 45 S SSU* complex in Trypanosoma brucei contains the 9 S SSU ribosomal RNA, a set of SSU ribosomal proteins, several pentatricopeptide repeat (PPR) proteins, and proteins not typically found in ribosomes, including rhodanese domain protein (Rhod) and a 200-kDa coiled-coil protein. To investigate the function of this complex, PPR29, Rhod, 200-kDa protein, and mitochondrial ribosomal protein S17 were knocked down by RNAi in procyclic T. brucei. A growth retardation phenotype, a reduction in the amount of the 45 S SSU* complexes, and the preferential inhibition of synthesis of the cytochrome c oxidase subunit I over apocytochrome b were observed as early as day 2 postinduction of RNAi. On the contrary, the down-regulation of mitochondrial ribosomal protein L3 drastically reduced the amount of the large subunit and indiscriminately inhibited mitochondrial translation. The relative amounts of translation-competent, long poly(AU)-tailed cytochrome c oxidase subunit I and edited apocytochrome b mRNAs were selectively reduced by ablation of the 45 S SSU* complex. The formation of the 80 S translation complexes, identified by association of the long-tailed mRNAs with the mitoribosomes, was also disrupted. On the other hand, the relative amount of long-tailed edited RPS12 mRNA was not substantially affected, and there was no noticeable effect on the RPS12 translation complexes. In bloodstream trypanosomes, the amount of the 45 S complexes was drastically reduced compared with procyclics. We propose that the 45 S SSU* complex represents a factor required for normal mitochondrial translation that may have selective effects on different mRNAs.

Published

2013

177. Perceived economic self-sufficiency: a country- and generation-comparative approach

Author

Tosun, Jale, Arco-Tirado, José L., Caserta, Maurizio, Cemalcilar, Zeynep, Freitag, Markus, Hörisch, Felix, Jensen, Carsten, Kittel, Bernhard, Littvay, Levente, Lukeš, Martin, Maloney, William A., Mühlböck, Monika, Rainsford, Emily, Rapp, Carolin, Schuck, Bettina, Shore, Jennifer, Steiber, Nadia, Sümer, Nebi, Tsakloglou, Panos, Vancea, Mihaela, and Vegetti, Federico

Published

2019

178. The effect of light quality and quantity on carbon allocation in Chromera velia

Author

Lukeš, Martin, Giordano, Mario, and Prášil, Ondřej

Published

2019

179. Multiscale finite element calculations in Python using SfePy

Author

Cimrman, Robert, Lukeš, Vladimír, and Rohan, Eduard

Published

2019

180. On the Possibilities of Straightforward Characterization of Plasma Activated Water

Author

Hoeben, W. F. L. M., van Ooij, P. P., Schram, D. C., Huiskamp, T., Pemen, A. J. M., and Lukeš, P.

Published

2019

181. Variability and Uncertainty Challenges in Scaling Imaging Spectroscopy Retrievals and Validations from Leaves Up to Vegetation Canopies

Author

Malenovský, Zbyněk, Homolová, Lucie, Lukeš, Petr, Buddenbaum, Henning, Verrelst, Jochem, Alonso, Luis, Schaepman, Michael E., Lauret, Nicolas, and Gastellu-Etchegorry, Jean-Philippe

Published

2019

182. Aerobic kinetoplastid flagellate Phytomonas does not require heme for viability

Author

Kořený, Luděk, Sobotka, Roman, Kovářová, Julie, Gnipová, Anna, Flegontov, Pavel, Horváth, Anton, Oborník, Miroslav, Ayala, Francisco J, and Lukeš, Julius

Subjects

Crithidia fasciculata, Electron Transport, Ergosterol, Fatty Acids, Heme, Kinetoplastida, Lanosterol, Models, Biological, Oxidation-Reduction, Oxidative Stress, Oxygen, Phylogeny, Porphyrins, Sterols, Trypanosomatina, cytochromes, respiration, sterols, protist

Abstract

Heme is an iron-coordinated porphyrin that is universally essential as a protein cofactor for fundamental cellular processes, such as electron transport in the respiratory chain, oxidative stress response, or redox reactions in various metabolic pathways. Parasitic kinetoplastid flagellates represent a rare example of organisms that depend on oxidative metabolism but are heme auxotrophs. Here, we show that heme is fully dispensable for the survival of Phytomonas serpens, a plant parasite. Seeking to understand the metabolism of this heme-free eukaryote, we searched for heme-containing proteins in its de novo sequenced genome and examined several cellular processes for which heme has so far been considered indispensable. We found that P. serpens lacks most of the known hemoproteins and does not require heme for electron transport in the respiratory chain, protection against oxidative stress, or desaturation of fatty acids. Although heme is still required for the synthesis of ergosterol, its precursor, lanosterol, is instead incorporated into the membranes of P. serpens grown in the absence of heme. In conclusion, P. serpens is a flagellate with unique metabolic adaptations that allow it to bypass all requirements for heme.

Published

2012

183. Comparing Early Eukaryotic Integration of Mitochondria and Chloroplasts in the Light of Internal ROS Challenges: Timing is of the Essence

Author

Dave Speijer, Michael Hammond, and Julius Lukeš

Subjects

chloroplast, eukaryogenesis, mitochondria, reactive oxygen species, Microbiology, QR1-502

Abstract

ABSTRACT When trying to reconstruct the evolutionary trajectories during early eukaryogenesis, one is struck by clear differences in the developments of two organelles of endosymbiotic origin: the mitochondrion and the chloroplast. From a symbiogenic perspective, eukaryotic development can be interpreted as a process in which many of the defining eukaryotic characteristics arose as a result of mutual adaptions of both prokaryotes (an archaeon and a bacterium) involved. This implies that many steps during the bacterium-to-mitochondrion transition trajectory occurred in an intense period of dramatic and rapid changes. In contrast, the subsequent cyanobacterium-to-chloroplast development in a specific eukaryotic subgroup, leading to the photosynthetic lineages, occurred in a full-fledged eukaryote. The commonalities and differences in the two trajectories shed an interesting light on early, and ongoing, eukaryotic evolutionary driving forces, especially endogenous reactive oxygen species (ROS) formation. Differences between organellar ribosomes, changes to the electron transport chain (ETC) components, and mitochondrial codon reassignments in nonplant mitochondria can be understood when mitochondrial ROS formation, e.g., during high energy consumption in heterotrophs, is taken into account. IMPORTANCE The early eukaryotic evolution was deeply influenced by the acquisition of two endosymbiotic organelles - the mitochondrion and the chloroplast. Here we discuss the possibly important role of reactive oxygen species in these processes.

Published

2020

184. Diverse alveolate infections of tadpoles, a new threat to frogs?

Author

Aurelie Chambouvet, Vanessa Smilansky, Miloslav Jirků, Marcos Isidoro-Ayza, Sarah Itoïz, Evelyne Derelle, Adam Monier, David J Gower, Mark Wilkinson, Michael J Yabsley, Julius Lukeš, and Thomas A Richards

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Published

2020

185. ZapE/Afg1 interacts with Oxa1 and its depletion causes a multifaceted phenotype.

Author

Jan Pyrih, Vendula Rašková, Ingrid Škodová-Sveráková, Tomáš Pánek, and Julius Lukeš

Subjects

Medicine, Science

Abstract

ZapE/Afg1 is a component of the inner cell membrane of some eubacteria and the inner mitochondrial membrane of eukaryotes. This protein is involved in FtsZ-dependent division of eubacteria. In the yeast and human mitochondrion, ZapE/Afg1 likely interacts with Oxa1 and facilitates the degradation of mitochondrion-encoded subunits of respiratory complexes. Furthermore, the depletion of ZapE increases resistance to apoptosis, decreases oxidative stress tolerance, and impacts mitochondrial protein homeostasis. It remains unclear whether ZapE is a multifunctional protein, or whether some of the described effects are just secondary phenotypes. Here, we have analyzed the functions of ZapE in Trypanosoma brucei, a parasitic protist, and an important model organism. Using a newly developed proximity-dependent biotinylation approach (BioID2), we have identified the inner mitochondrial membrane insertase Oxa1 among three putative interacting partners of ZapE, which is present in two paralogs. RNAi-mediated depletion of both ZapE paralogs likely affected the function of respiratory complexes I and IV. Consistently, we show that the distribution of mitochondrial ZapE is restricted only to organisms with Oxa1, respiratory complexes, and a mitochondrial genome. We propose that the evolutionarily conserved interaction of ZapE with Oxa1, which is required for proper insertion of many inner mitochondrial membrane proteins, is behind the multifaceted phenotype caused by the ablation of ZapE.

Published

2020

186. Diversity and evolution of anuran trypanosomes: insights from the study of European species

Author

Viktoria V. Spodareva, Anastasiia Grybchuk-Ieremenko, Alexander Losev, Jan Votýpka, Julius Lukeš, Vyacheslav Yurchenko, and Alexei Yu Kostygov

Subjects

Trypanosomatidae, Mixed infections, Evolution, Frog trypanosomes, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Amphibian trypanosomes were the first ever described trypanosomatids. Nevertheless, their taxonomy remains entangled because of pleomorphism and high prevalence of mixed infections. Despite the fact that the first species in this group were described in Europe, virtually none of the trypanosomes from European anurans was analyzed using modern molecular methods. Methods In this study, we explored the diversity and phylogeny of trypanosomes in true frogs from Europe using light microscopy and molecular methods. Results A comparison of observed morphotypes with previous descriptions allowed us to reliably identify three Trypanosoma spp., whereas the remaining two strains were considered to represent novel taxa. In all cases, more than one morphotype per blood sample was observed, indicating mixed infections. One hundred and thirty obtained 18S rRNA gene sequences were unambiguously subdivided into five groups, correspondent to the previously recognized or novel taxa of anuran trypanosomes. Conclusions In this work we studied European frog trypanosomes. Even with a relatively moderate number of isolates, we were able to find not only three well-known species, but also two apparently new ones. We revealed that previous assignments of multiple isolates from distant geographical localities to one species based on superficial resemblance were unjustified. Our work also demonstrated a high prevalence of mixed trypanosome infections in frogs and proposed a plausible scenario of evolution of the genus Trypanosoma.

Published

2018

187. B3LYP study of 3-hydroxynaphthalene-2-carboxanilide para-derivatives

Author

Martin Michalík, Peter Poliak, and Vladimír Lukeš

Subjects

Descriptor of substituent effect, Hammett constants, Retention factor, Biological activity, Acidity, Chemistry, QD1-999

Abstract

A systematic DFT investigation of 3-hydroxy-N-phenylnaphthalene-2-carboxamide and its sixteen para-derivatives is presented. The structural analysis showed that the energetically preferred conformation of all derivatives is practically planar and it is stabilised via intramolecular hydrogen bonds occurring between (C)O×××H(3)O atomic pairs. The quantum chemically evaluated partition coefficients logarithms correlate well with Quantitative Structure–Activity Relationship models as well as with experimentally determined isocratic retention factors logarithm. Theoretical gas-phase proton affinities of amido and hydroxyl group together with selected partial atomic charges reflect the terminal phenyl substitution effect. These quantities are linearly dependent on the in vitro activity against the Mycobacterium Kansasii. Obtained linear correlation functions based on quantum chemically evaluated microscopic properties and selected experimental data may serve as the effective tool in modern drug design for the description of substitution effect.

Published

2018

188. Damage detection in thin films using second harmonic generation

Author

Lequime, Michel, Ristau, Detlev, Lukeš, J., Hájková, V., Kanclíř, V., Tauchmanová, M., and Žídek, K.

Published

2024

189. Mitochondrial localization of human frataxin is necessary but processing is not for rescuing frataxin deficiency in Trypanosoma brucei

Author

Long, Shaojun, Jirků, Milan, Ayala, Francisco J, and Lukeš, Julius

Subjects

Vector-Borne Diseases, Infectious Diseases, Underpinning research, 1.1 Normal biological development and functioning, Good Health and Well Being, Amino Acid Sequence, Animals, Animals, Genetically Modified, Cell Line, Cytosol, Humans, Iron-Binding Proteins, Iron-Sulfur Proteins, Mitochondria, Molecular Sequence Data, Trypanosoma brucei brucei, mitochondria protein processing, kinetoplastida, evolutionary conservation, function rescue, import

Abstract

Trypanosoma brucei, the agent of human sleeping sickness and ruminant nagana, is the most genetically tractable representative of the domain Excavata. It is evolutionarily very distant from humans, with a last common ancestor over 1 billion years ago. Frataxin, a highly conserved small protein involved in iron-sulfur cluster synthesis, is present in both organisms, and its deficiency is responsible for Friedreich's ataxia in humans. We have found that T. brucei growth-inhibition phenotype caused by down-regulated frataxin is rescued by means of human frataxin. The rescue is fully dependent on the human frataxin being imported into the trypanosome mitochondrion. Processing of the imported protein by mitochondrial processing peptidase can be blocked by mutations in the signal peptide, as in human cells. Although in human cells frataxin must be processed to execute its function, the same protein in the T. brucei mitochondrion is functional even in the absence of processing. Our results illuminate remarkable conservation of the mechanisms of mitochondrial protein import and processing.

Published

2008

190. Adaptations of Trypanosoma brucei to gradual loss of kinetoplast DNA: Trypanosoma equiperdum and Trypanosoma evansi are petite mutants of T. brucei

Author

Lai, De-Hua, Hashimi, Hassan, Lun, Zhao-Rong, Ayala, Francisco J, and Lukeš, Julius

Subjects

Biotechnology, Vector-Borne Diseases, Genetics, Rare Diseases, Infectious Diseases, 2.2 Factors relating to the physical environment, Aetiology, Infection, Good Health and Well Being, Adaptation, Physiological, Amino Acid Sequence, Animals, DNA, Kinetoplast, Genes, Protozoan, Mice, Microscopy, Electron, Molecular Sequence Data, Mutation, Polymerase Chain Reaction, RNA Editing, RNA, Messenger, Sequence Homology, Amino Acid, Trypanosoma, dourine, mitochondria, protozoa, RNA editing, surra

Abstract

Trypanosoma brucei is a kinetoplastid flagellate, the agent of human sleeping sickness and ruminant nagana in Africa. Kinetoplastid flagellates contain their eponym kinetoplast DNA (kDNA), consisting of two types of interlocked circular DNA molecules: scores of maxicircles and thousands of minicircles. Maxicircles have typical mitochondrial genes, most of which are translatable only after RNA editing. Minicircles encode guide RNAs, required for decrypting the maxicircle transcripts. The life cycle of T. brucei involves a bloodstream stage (BS) in vertebrates and a procyclic stage (PS) in the tsetse fly vector. Partial [dyskinetoplastidy (Dk)] or total [akinetoplastidy (Ak)] loss of kDNA locks the trypanosome in the BS form. Transmission between vertebrates becomes mechanical without PS and tsetse mediation, allowing the parasite to spread outside the African tsetse belt. Trypanosoma equiperdum and Trypanosoma evansi are agents of dourine and surra, diseases of horses, camels, and water buffaloes. We have characterized representative strains of T. equiperdum and T. evansi by numerous molecular and classical parasitological approaches. We show that both species are actually strains of T. brucei, which lost part (Dk) or all (Ak) of their kDNA. These trypanosomes are not monophyletic clades and do not qualify for species status. They should be considered two subspecies, respectively T. brucei equiperdum and T. brucei evansi, which spontaneously arose recently. Dk/Ak trypanosomes may potentially emerge repeatedly from T. brucei.

Published

2008

191. Vickermania gen. nov., trypanosomatids that use two joined flagella to resist midgut peristaltic flow within the fly host

Author

Kostygov, Alexei Y., Frolov, Alexander O., Malysheva, Marina N., Ganyukova, Anna I., Chistyakova, Lyudmila V., Tashyreva, Daria, Tesařová, Martina, Spodareva, Viktoria V., Režnarová, Jana, Macedo, Diego H., Butenko, Anzhelika, d’Avila-Levy, Claudia M., Lukeš, Julius, and Yurchenko, Vyacheslav

Published

2020

192. Evolution of metabolic capabilities and molecular features of diplonemids, kinetoplastids, and euglenids

Author

Butenko, Anzhelika, Opperdoes, Fred R., Flegontova, Olga, Horák, Aleš, Hampl, Vladimír, Keeling, Patrick, Gawryluk, Ryan M. R., Tikhonenkov, Denis, Flegontov, Pavel, and Lukeš, Julius

Published

2020

193. Evolutionary and geographical history of the Leishmania donovani complex with a revision of current taxonomy

Author

Lukeš, Julius, Mauricio, Isabel L, Schönian, Gabriele, Dujardin, Jean-Claude, Soteriadou, Ketty, Dedet, Jean-Pierre, Kuhls, Katrin, Tintaya, K Wilber Quispe, Jirků, Milan, Chocholová, Eva, Haralambous, Christos, Pratlong, Francine, Oborník, Miroslav, Horák, Aleš, Ayala, Francisco J, and Miles, Michael A

Subjects

Infectious Diseases, Biotechnology, Genetics, Vector-Borne Diseases, Good Health and Well Being, Animals, Biological Evolution, Genetic Markers, Genetic Speciation, Geography, Leishmania donovani, Time Factors, Leishmania infantum, leishmaniasis, parasitic protozoa, phylogeny, population genetics

Abstract

Leishmaniasis is a geographically widespread severe disease, with an increasing incidence of two million cases per year and 350 million people from 88 countries at risk. The causative agents are species of Leishmania, a protozoan flagellate. Visceral leishmaniasis, the most severe form of the disease, lethal if untreated, is caused by species of the Leishmania donovani complex. These species are morphologically indistinguishable but have been identified by molecular methods, predominantly multilocus enzyme electrophoresis. We have conducted a multifactorial genetic analysis that includes DNA sequences of protein-coding genes as well as noncoding segments, microsatellites, restriction-fragment length polymorphisms, and randomly amplified polymorphic DNAs, for a total of approximately 18,000 characters for each of 25 geographically representative strains. Genotype is strongly correlated with geographical (continental) origin, but not with current taxonomy or clinical outcome. We propose a new taxonomy, in which Leishmania infantum and L. donovani are the only recognized species of the L. donovani complex, and we present an evolutionary hypothesis for the origin and dispersal of the species. The genus Leishmania may have originated in South America, but diversified after migration into Asia. L. donovani and L. infantum diverged approximately 1 Mya, with further divergence of infraspecific genetic groups between 0.4 and 0.8 Mya. The prevailing mode of reproduction is clonal, but there is evidence of genetic exchange between strains, particularly in Africa.

Published

2007

194. Improving Nitrogen Status Estimation in Malting Barley Based on Hyperspectral Reflectance and Artificial Neural Networks

Author

Karel Klem, Jan Křen, Ján Šimor, Daniel Kováč, Petr Holub, Petr Míša, Ilona Svobodová, Vojtěch Lukas, Petr Lukeš, Hana Findurová, and Otmar Urban

Subjects

artificial neural network, grain yield, Hordeum vulgare, nitrogen status, hyperspectral reflectance, Agriculture

Abstract

Malting barley requires sensitive methods for N status estimation during the vegetation period, as inadequate N nutrition can significantly limit yield formation, while overfertilization often leads to an increase in grain protein content above the limit for malting barley and also to excessive lodging. We hypothesized that the use of N nutrition index and N uptake combined with red-edge or green reflectance would provide extended linearity and higher accuracy in estimating N status across different years, genotypes, and densities, and the accuracy of N status estimation will be further improved by using artificial neural network based on multiple spectral reflectance wavelengths. Multifactorial field experiments on interactive effects of N nutrition, sowing density, and genotype were conducted in 2011–2013 to develop methods for estimation of N status and to reduce dependency on changing environmental conditions, genotype, or barley management. N nutrition index (NNI) and total N uptake were used to correct the effect of biomass accumulation and N dilution during plant development. We employed an artificial neural network to integrate data from multiple reflectance wavelengths and thereby eliminate the effects of such interfering factors as genotype, sowing density, and year. NNI and N uptake significantly reduced the interannual variation in relationships to vegetation indices documented for N content. The vegetation indices showing the best performance across years were mainly based on red-edge and carotenoid absorption bands. The use of an artificial neural network also significantly improved the estimation of all N status indicators, including N content. The critical reflectance wavelengths for neural network training were in spectral bands 400–490, 530–570, and 710–720 nm. In summary, combining NNI or N uptake and neural network increased the accuracy of N status estimation to up 94%, compared to less than 60% for N concentration.

Published

2021

195. Leaf Surface Reflectance Does Not Affect Biophysical Traits Modelling from VIS-NIR Spectra in Plants with Sparsely Distributed Trichomes

Author

Eva Neuwirthová, Zuzana Lhotáková, Petr Lukeš, and Jana Albrechtová

Subjects

diffuse reflectance, integrating sphere, leaf anatomical traits, leaf epidermal structure, specific leaf area, specular reflectance, Science

Abstract

In this study, we examine leaf reflectance as the main optical property used in remote sensing of vegetation. The total leaf reflectance consists of two main components: a diffuse component, originating from the leaf interior, and a component reflected directly from the leaf surface. The latter contains specular (mirror-like) reflectance (SR) and surface particle scattering, driven by the surface roughness. Our study aimed to (1) reveal the effects of key leaf structural traits on SR in 400–2500 nm, and (2) compare the performance of PLSR models of leaf biophysical properties based on the total reflectance and SR removal reflectance. Four Arabidopsis thaliana structural surface mutants and six Hieracium species differing in trichome properties were studied. PCA did not reveal any systematic effect of trichome density, length, and morphology on SR. Therefore, the results do not support the hypothesis that leaves with denser and longer trichomes have lower SR and higher total reflectance than the smooth leaves. SR removal did not remarkably improve PLSR models of biophysical traits (up to 2% of RMSE). Thus, in herbaceous dorsiventral leaves with relatively sparse trichomes of various morphology and without apparent waxy surface, we cannot confirm that SR removal significantly improves biophysical trait prediction.

Published

2021

196. Correction to: Perceived economic self-sufficiency: a country- and generation-comparative approach

Author

Tosun, Jale, Arco-Tirado, José L., Caserta, Maurizio, Cemalcilar, Zeynep, Freitag, Markus, Hörisch, Felix, Jensen, Carsten, Kittel, Bernhard, Littvay, Levente, Lukeš, Martin, Maloney, William A., Mühlböck, Monika, Rainsford, Emily, Rapp, Carolin, Schuck, Bettina, Shore, Jennifer, Steiber, Nadia, Sümer, Nebi, Tsakloglou, Panos, Vancea, Mihaela, and Vegetti, Federico

Published

2019

197. Prototyping a Generic Algorithm for Crop Parameter Retrieval across the Season Using Radiative Transfer Model Inversion and Sentinel-2 Satellite Observations

Author

Jiří Tomíček, Jan Mišurec, and Petr Lukeš

Subjects

Sentinel-2, PROSAIL, radiative transfer, leaf area index, leaf chlorophyll content, leaf water content, Science

Abstract

In this study, Sentinel-2 data were used for the retrieval of three key biophysical parameters of crops: leaf area index (LAI), leaf chlorophyll content (LCC), and leaf water content (LWC) for dominant crop types in the Czech Republic, including winter wheat (Triticum aestivum), spring barley (Hordeum vulgare), winter rapeseed (Brassica napus subsp. napus), alfalfa (Medicago sativa), sugar beet (Beta vulgaris), and corn (Zea mays subsp. Mays) in different stages of crop development. Artificial neural networks were applied in combination with an approach using look-up tables that is based on PROSAIL simulations to retrieve the biophysical properties tailored for each crop type. Crop-specific PROSAIL model optimization and validation were based upon a large dataset of in situ measurements collected in 2017 and 2018 in lowland of Central Bohemia region. For LCC and LAI, respectively, low relative root mean square error (rRMSE; 25%, 37%) was achieved. Additionally, a relatively strong correlation with in situ measurements (r = 0.80) was obtained for LAI. On the contrary, the results of the LWC parameter retrieval proved to be unsatisfactory. We have developed a generic tool for biophysical monitoring of agricultural crops based on the interpretation of Sentinel-2 satellite data by inversion of the radiation transfer model. The resulting crop condition maps can serve as precision agriculture inputs for selective fertilizer and irrigation application as well as for yield potential assessment.

Published

2021

198. Modeling of the contrast-enhanced perfusion test in liver based on the multi-compartment flow in porous media

Author

Rohan, Eduard, Lukeš, Vladimír, and Jonášová, Alena

Published

2018

199. Fe–S cluster assembly in the supergroup Excavata

Author

Peña-Diaz, Priscila and Lukeš, Julius

Published

2018

200. Quantifying protein densities on cell membranes using super-resolution optical fluctuation imaging

Author

Tomáš Lukeš, Daniela Glatzová, Zuzana Kvíčalová, Florian Levet, Aleš Benda, Sebastian Letschert, Markus Sauer, Tomáš Brdička, Theo Lasser, and Marek Cebecauer

Subjects

Science

Abstract

The ability to quantify the organization of cell membrane molecules is limited by the density of labeling and experimental conditions. Here, the authors use super-resolution optical fluctuation (SOFI) for molecular density and clustering analyses, and investigate nanoscale distribution of CD4 glycoprotein.

Published

2017