Cao García, Francisco Javier

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First Name
Francisco Javier
Last Name
Cao García
Universidad Complutense de Madrid
Faculty / Institute
Ciencias Físicas
Estructura de la Materia, Física Térmica y Electrónica
Física Aplicada
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Now showing 1 - 10 of 24
  • Publication
    Reliability of rectified transport: Coherence and reproducibility of transport by open-loop and feedback-controlled Brownian ratchets
    (Amer Physical Soc, 2018-09-04) Jarillo, Javier; García Villaluenga, Juan Pedro; Cao García, Francisco Javier
    Brownian ratchets are small-scale systems which rectify thermal fluctuations to produce a net current of particles. They have inspired many models of molecular motors that perform transport in the noisy environment of living cells. For the most common ratchet systems, this rectification is achieved by means of the switching of a periodic and spatially asymmetric potential (flashing ratchets) or by means of a rocking force (rocking ratchets). The rectification mechanism can be applied without information on the state of the system (open-loop ratchets) or using information on the state of the system (feedback or closed-loop ratchets). In order to characterize the transport, the most used quantity is the mean velocity of the center of mass of the system. However, another important transport attribute that has not received much attention is its quality. Here we analyze the quality of transport by studying the coherence and reproducibility of the transport induced by several representative open-and closed-loop rectification protocols under the maximum mean velocity conditions. We find that for few-particle systems, the best protocol is the rocked feedback protocol, producing the transport of particles with the highest coherence and reproducibility per distance traveled at the maximum mean velocity, while for larger systems it is overtaken by its open-loop counterpart. Our results also show that protocols with similar maximum mean velocities can have quite different coherences and reproducibilities. This highlights the importance of studying the reliability of rectified transport to develop performant synthetic rectification devices. These contributions to the emerging field of reliable transport in noisy environments are expected also to provide insight into the performance of natural molecular motors.
  • Publication
    Efficiency of Brownian motors
    (E D P Sciences, 1998-08-01) Rodríguez Parrondo, Juan Manuel; Blanco, J. M.; Cao García, Francisco Javier; Brito, Ricardo
    The efficiency of different types of Brownian motors is calculated analytically and numerically. We find that motors based on flashing ratchets present a,low efficiency and an unavoidable entropy production. On the other hand, a certain class of motors based on adiabatically changing potentials, named reversible ratchets, exhibit a higher efficiency and the entropy production can be arbitrarily reduced.
  • Publication
    Teoría de campos fuera del equilibrio y cosmología
    (Universidad Complutense de Madrid, Servicio de Publicaciones, 2004) Cao García, Francisco Javier
    En este trabajo se investiga la dinamica cuantica de los campos para sistemas fuera del equilibrio con densidad de energia no perturbativamente grande. Las principales aplicaciones de los resultados son las colisiones ultrarelativistas de iones pesados y los procesos a alta densidad de energia en el Universo. Se calcula la dinamica usando las ecuaciones de evolucion en el limite de N grande, y se obtienen soluciones analiticas para varios regimenes. Se muestra que la dinamica esta caracterizada por fenomenos de decoherencia, resonancia parametrica, restauracion dinamica de la simetria, rotura dinamica de la simetria, inestabilidad espinodal y creacion de bosones de Goldstone fuera del equilibrio. Se analiza tambien la evolucion de la funcion de correlacion para la que se encuentra un comportamiento de scaling generalizado ( para simetria rota). En el caso de simetria rota la masa efectiva tiende asintoticamente a cero en ausencia de capo externo, mientras que en su presencia la masa al cuadrado asintotica es del orden del campo externo. Tambien se ha estudiado la dinamica de campos cuanticos en el espacio-tiempo FRW de forma consistente. Lo que nos ha permitido dar un tratamiento cuantico consistente al campo del inflaton en el escenario de inflacion caotica (frente a los habituales tratamientos clasicos). Este tratamiento de una justificacion microscopica de la inflacion caotica clasica. Encontramos una clase de estados iniciales cuanticos (tanto puros como mezcla ) que dan lugar a inflacion caotica y proporcionamos una generalizacion cuantica de las condiciones de deslizamiento lento.
  • Publication
    Replicative DNA polymerases promote active displacement of SSB proteins during lagging strand synthesis
    (Oxford University Press, 2019-06-20) Cerrón, Fernando; Lorenzo, Sara de; Lemishko, Kateryna M.; Ciesielski, Grzegorz L.; Kaguni, Laurie S.; Cao García, Francisco Javier; Ibarra, Borja; otros, ...
    Genome replication induces the generation of large stretches of single-stranded DNA (ssDNA) intermediates that are rapidly protected by single-stranded DNA-binding (SSB) proteins. To date, the mechanism by which tightly bound SSBs are removed from ssDNA by the lagging strand DNA polymerase without compromising the advance of the replication fork remains unresolved. Here, we aimed to address this question by measuring, with optical tweezers, the real-time replication kinetics of the human mitochondrial and bacteriophage T7 DNA polymerases on free-ssDNA, in comparison with ssDNA covered with homologous and non-homologous SSBs under mechanical tension. We find important differences between the force dependencies of the instantaneous replication rates of each polymerase on different substrates. Modeling of the data supports a mechanism in which strong, specific polymerase-SSB interactions, up to similar to 12 k(B) T, are required for the polymerase to dislodge SSB from the template without compromising its instantaneous replication rate, even under stress conditions that may affect SSB-DNA organization and/or polymerase-SSB communication. Upon interaction, the elimination of template secondary structure by SSB binding facilitates the maximum replication rate of the lagging strand polymerase. In contrast, in the absence of polymerase-SSB interactions, SSB poses an effective barrier for the advance of the polymerase, slowing down DNA synthesis.
  • Publication
    Efficiency at maximum power of a discrete feedback ratchet
    (American Physical Society, 2016-01-22) Jarillo Díaz, Javier; Tangarife, Tomás; Cao García, Francisco Javier
    Efficiency at maximum power is found to be of the same order for a feedback ratchet and for its open-loop counterpart. However, feedback increases the output power up to a factor of five. This increase in output power is due to the increase in energy input and the effective entropy reduction obtained as a consequence of feedback. Optimal efficiency at maximum power is reached for time intervals between feedback actions two orders of magnitude smaller than the characteristic time of diffusion over a ratchet period length. The efficiency is computed consistently taking into account the correlation between the control actions. We consider a feedback control protocol for a discrete feedback flashing ratchet, which works against an external load. We maximize the power output optimizing the parameters of the ratchet, the controller, and the external load. The maximum power output is found to be upper bounded, so the attainable extracted power is limited. After, we compute an upper bound for the efficiency of this isothermal feedback ratchet at maximum power output. We make this computation applying recent developments of the thermodynamics of feedback-controlled systems, which give an equation to compute the entropy reduction due to information. However, this equation requires the computation of the probability of each of the possible sequences of the controller's actions. This computation becomes involved when the sequence of the controller's actions is non-Markovian, as is the case in most feedback ratchets. We here introduce an alternative procedure to set strong bounds to the entropy reduction in order to compute its value. In this procedure the bounds are evaluated in a quasi-Markovian limit, which emerge when there are big differences between the stationary probabilities of the system states. These big differences are an effect of the potential strength, which minimizes the departures from the Markovianicity of the sequence of control actions, allowing also to minimize the departures from the optimal performance of the system. This procedure can be applied to other feedback ratchets and, more in general, to other control systems.
  • Publication
    Noncooperative thermodynamics and kinetic models of ligand binding to polymers: Connecting McGhee-von Hippel model with the Tonks gas model
    (American Physical Society, 2020-07-20) García Villaluenga, Juan Pedro; Vidal, Jules; Cao García, Francisco Javier
    Ligand binding to polymers modifies the physical and chemical properties of the polymers, leading to physical, chemical, and biological implications. McGhee and von Hippel obtained the equilibrium coverage as a function of the ligand affinity, through the computation of the possible binding sites for the ligand. Here, we complete this theory deriving the kinetic model for the ligand-binding dynamics and the associated equilibrium chemical potential, which turns out to be of the Tonks gas model type. At low coverage, the Tonks chemical potential becomes the Fermi chemical potential and even the ideal gas chemical potential. We also discuss kinetic models associated with these chemical potentials. These results clarify the kinetic models of ligand binding, their relations with the chemical potentials, and their range of validity. Our results highlight the inaccuracy of ideal and simplified kinetic approaches for medium and high coverages.
  • Publication
    Prácticas adaptadas inclusivas para el desarrollo de tecnologías emergentes en docencia Tic (Reconnet)
    (2019-08-01) Botella Juan, Guillermo; Barrio García, Alberto Antonio del; García Sánchez, Carlos; Clemente Barreira, Juan Antonio; Bernabé García, Sergio; Roa Romero, Carlos; Ahmed Fahmy Amin, Hesham; Ezquerro Rodríguez, José Miguel; Cao García, Francisco Javier; Sierra López, Ángel
    Los objetivos alcanzados en el proyecto han sido: I) Continuar la preparación del framework de desarrollo rápido de código VHDL sobre FPGAs de Altera a partir de código Matlab y del entorno gráfico Simulink realizado en el proyecto ALLIANCE (PID 217 CONV. 16/17) útil y ACCESIBLE para diseño rápido de aplicaciones en asignaturas de ciencia y tecnología. II) Aplicar el propio entorno semiautomático dentro de asignaturas específicas de diseño hardware como Sist. Empotrados Distribuidos, analizando el compromiso de la curva de aprendizaje frente a la optimalidad de la solución y comparándola para estas asignaturas frente a técnicas tradicionales. III) Adaptación de material inclusivo para usar como caso de estudio inmediato asignaturas relacionadas en el Máster de Secundaria (Especialidad en Informática y Tecnología) por cercanía de contenidos y afinidad técnica.
  • Publication
    DNA synthesis determines the binding mode of the human mitochondrial single-stranded DNA-binding protein
    (Oxford University Press, 2017-07-07) Morin, José A.; Cerron Campoo, Fernando; Jarillo Díaz, Javier; Beltrán de Heredia Rodríguez, Elena; Ciesielski, Grzegorz L.; Arias González, J. Ricardo; Kaguni, Laurie S.; Cao García, Francisco Javier; Ibarra, Borja
    Single-stranded DNA-binding proteins (SSBs) play a key role in genome maintenance, binding and organizing single-stranded DNA (ssDNA) intermediates. Multimeric SSBs, such as the human mitochondrial SSB (HmtSSB), presentmultiple sites to interact with ssDNA, which has been shown in vitro to enable them to bind a variable number of single-stranded nucleotides depending on the salt and protein concentration. It has long been suggested that different binding modes might be used selectively for different functions. To study this possibility, we used optical tweezers to determine and compare the structure and energetics of long, individual HmtSSB-DNA complexes assembled on preformed ssDNA and on ssDNA generated gradually during 'in situ' DNA synthesis. We show that HmtSSB binds to preformed ssDNA in two major modes, depending on salt and protein concentration. However, when protein binding was coupled to strand-displacement DNA synthesis, only one of the two binding modes was observed under all experimental conditions. Our results reveal a key role for the gradual generation of ssDNA in modulating the binding mode of a multimeric SSB protein and consequently, in generating the appropriate nucleoprotein structure for DNA synthetic reactions required for genome maintenance.
  • Publication
    Mechanics, thermodynamics, and kinetics of ligand binding to biopolymers
    (Public LibraryI Science, 2017-04-05) Jarillo Díaz, Javier; Morín, José A.; Beltrán de Heredia Rodríguez, Elena; García Villaluenga, Juan Pedro; Ibarra, Borja; Cao García, Francisco Javier
    Ligands binding to polymers regulate polymer functions by changing their physical and chemical properties. This ligand regulation plays a key role in many biological processes. We propose here a model to explain the mechanical, thermodynamic, and kinetic properties of the process of binding of small ligands to long biopolymers. These properties can now be measured at the single molecule level using force spectroscopy techniques. Our model performs an effective decomposition of the ligand-polymer system on its covered and uncovered regions, showing that the elastic properties of the ligand-polymer depend explicitly on the ligand coverage of the polymer (i.e., the fraction of the polymer covered by the ligand). The equilibrium coverage that minimizes the free energy of the ligand-polymer system is computed as a function of the applied force. We show how ligands tune the mechanical properties of a polymer, in particular its length and stiffness, in a force dependent manner. In addition, it is shown how ligand binding can be regulated applying mechanical tension on the polymer. Moreover, the binding kinetics study shows that, in the case where the ligand binds and organizes the polymer in different modes, the binding process can present transient shortening or lengthening of the polymer, caused by changes in the relative coverage by the different ligand modes. Our model will be useful to understand ligand-binding regulation of biological processes, such as the metabolism of nucleic acid. In particular, this model allows estimating the coverage fraction and the ligand mode characteristics from the force extension curves of a ligand-polymer system.
  • Publication
    Framework para el desArroLLo ágIl de código RTL orientAdo a programadores software, ingeNieros y CiEntíficos (ALLIANCE)
    (2018-09-28) Botella Juan, Guillermo; Barrio García, Alberto Antonio del; Recas Piorno, Joaquín; García Sánchez, Carlos; Ezquerro Rodríguez, José Miguel; Roa Romero, Carlos; Fariña Fernández, Daniel; López Alonso, José Manuel; Cao García, Francisco Javier; Sierra López, Ángel
    Las FPGAs en el contexto científico tienen una gran importancia debido a su capacidad de procesamiento paralelo, sus características de bajo coste y bajo consumo como plataformas de aceleración. Compañias bien conocidas y establecidas en el desarrollo de herramientas científicas como Mathworks han desarrollado herramientas de síntesis de alto nivel que acelera el proceso de diseño. El siguiente proyecto de Innovación docente hace uso de estas herramientas para desarrollar una plataforma de aceleración útil en contextos educativos (específicamente en asignaturas científico técnicas impartidas en la UCM). Se genera un entorno basado en el paradigma FPGA-in-the-Loop mediante Simulink que permite ejecutar los modelos directamente en la FPGA. Se presentarán resultados que darán cuenta de precisión, performance, asimismo se establecerán comparativas respecto a modelos usando un paradigma de desarrollo clásico.