Laidy M. Alvero-González, Marcel Aguilella-Arzo, D. Aurora Perini, Lucie A. Bergdoll, María Queralt-Martín and Antonio Alcaraz | Supralinear scaling behavior of ionic transport in membrane nanochannels regulated by outer surface charges | Nanoscale Adv. 6: 6344 | 2024 | |
Douglas P. Gladue, Lidia Gomez-Lucas, Eneko Largo, Elizabeth Ramirez-Medina, Johana Torralba, Maria Queralt-Martín, Antonio Alcaraz, Lauro Velazquez-Salinas, Jose L. Nieva, Manuel V. Borca | Viroporin-like activity of the hairpin transmembrane domain of African swine fever virus B169L protein | J Virol 98: e00231-24. | 2024 | |
Marcel Aguilella-Arzo, David Hoogerheide, Mathieu Doucet, Hanyu Wang, Vicente M. Aguilella | Addition to "Charged biological membranes repel large neutral molecules by surface dielectrophoresis and counterion pressure" | J. Am. Chem. Soc. 146: 9476
| 2024 | |
Marcel Aguilella-Arzo, David Hoogerheide, Mathieu Doucet, Hanyu Wang, Vicente M. Aguilella | Charged biological membranes repel large neutral molecules by surface dielectrophoresis and counterion pressure | J. Am. Chem. Soc. 146: 2701−2710
| 2024 | |
È. Catalina-Hernández, M. López-Martín, D. Masnou-Sánchez, M. Martins, V. A. Lorenz-Fonfria, F. Jiménez-Altayó, U. A. Hellmich, H. Inada, A. Alcaraz, Y. Furutani, A. Nonell-Canals, J. L. Vázquez-Ibar, C. Domene, R. Gaudet, A. Perálvarez-Marín | Experimental and computational biophysics to identify vasodilator drugs targeted at TRPV2 using agonists based on the probenecid scaffold | Comput. and Struct. Biotechnology J. 23: 473-482 | 2024 | |
Amaia González-Magaña, Igor Tascón, Jon Altuna-Alvarez, María Queralt-Martín, Jake Colautti, Carmen Velázquez, Maialen Zabala, Jessica Rojas-Palomino, Marité Cárdenas, Antonio Alcaraz, John C. Whitney, Iban Ubarretxena-Belandia & David Albesa-Jové | Structural and functional insights into the delivery of a bacterial Rhs pore-forming toxin to the membrane | Nat Commun 14: 7808
| 2023 | |
Wahyu Surya, Ernesto Tavares-Neto, Andrea Sanchis, María Queralt-Martín, Antonio Alcaraz, Jaume Torres, Vicente M. Aguilella | The complex proteolipidic behavior of the SARS-CoV-2 envelope protein channel: weak selectivity and heterogeneous oligomerization | Int. J. Mol. Sci. 24: 12454
| 2023 | |
L. M. Alvero-Gonzalez, D. A. Perini, M. Queralt-Martín, A. Perálvarez-Marín, C. Viñas and A Alcaraz | Probing electrophysiological activity of amphiphilic Dynorphin A in planar neutral membranes reveals both ion channel-like activity and neuropeptide translocation | Bioelectrochemistry 154: 108527 | 2023 | |
Douglas P. Gladue, Lidia Gomez-Lucas, Eneko Largo, Lauro Velazquez-Salinas, Elizabeth Ramirez-Medina, Johana Torralba, Maria Queralt, Antonio Alcaraz, Jose L. Nieva, Manuel V. Borca | African Swine Fever Virus Gene B117L Encodes a Small Protein Endowed with Low-pH-Dependent Membrane Permeabilizing Activity | J Virology 5: 1-19 | 2023 | |
María Queralt-Martín. José J. Pérez-Grau, Laidy M. Alvero González, D. Aurora Perini, Javier Cervera, Vicente M. Aguilella and Antonio Alcaraz | Biphasic concentration patterns in ionic transport under nanoconfinement revealed in steady state and time-dependent properties | J Chem Phys, 158: 64701 | 2023 | |
Aurelio J. Dregni, Matthew J. McKay, Wahyu Surya, Maria Queralt-Martin, Joao
Medeiros-Silva, Harrison K. Wang, Vicente Aguilella, Jaume Torres, Mei Hong | The Cytoplasmic Domain of the SARS-CoV-2 Envelope Protein Assembles into a b-Sheet Bundle in Lipid Bilayers | J Mol Biol, 435: 167966 | 2023 | |
D. A. Perini, E. Parra-Ortiz, I. Varó, M. Queralt-Martín, M. Malmsten, A. Alcaraz | Surface-Functionalized Polystyrene Nanoparticles Alter Transmembrane Potential via Ion-Selective Pores Maintaining Global Bilayer Integrity | Langmuir, 38: 14837-14849 | 2022 | |
M Colombini, K Barnes, K-T Chang, M H Younis, V M Aguilella | Triplin: Functional Probing of Its Structure and the Dynamics of the Voltage-Gating Process | Int. J Molecular Sci., 23: 13765 | 2022 | |
M Nuez-Martínez, M Queralt-Martín, A Muñoz-Juan, V M Aguilella, A Laromaine, F Teixidor, C Viñas, C G Pinto, T Pinheiro, J F Guerreiro, F Mendes, C Roma-Rodrigues, A R Fernandes, P V Baptista, S Valic, F Marques | Boron clusters (ferrabisdicarbollides), shaping the future as radiosensitizers for multimodal (chemo/radio/PBFR) therapy of glioblastoma | J. Materials Chemistry B, 10: 9727-9934 | 2022 | |
A González-Magaña, J Altuna, M Queralt-Martín, E Largo, I Montánchez, A. Alcaraz, D. Albesa-Jové | The P. aeruginosa Type VI Secretion System Effector Tse5 Forms Ion-Selective Membrane Pores that Disrupt the Membrane Potential of Intoxicated Cells | Communications Biology 5: 1189 | 2022 | |
L Gallego-Villarejo, C Wallin, S Król, J Enrich-Bengoa, A Suades, M Aguilella-Arzo, M J Gomara, I Haro, S Wärmlander, F J Muñoz, A Gräslund, A Perálvarez-Marín | Big dynorphin is a neuroprotector scaffold against amyloid β-peptide aggregation and cell toxicity | Computational and Structural Biotechnology Journal 20: 5672–5679 | 2022 | |
TK Rostovtseva, M Rajendran, W Rosencrans, M Queralt-Martín, MG Larimi, SM Bezrukov | Role of individual VDAC isoforms in bioenergetics and neurodegeneration: Why they are so similar, yet different | Biochimica et Biophysica Acta (BBA)-Bioenergetics 1863: 148714 | 2022 | |
V. A. Ngo, M. Queralt-Martín, F. Khan, L. Bergdoll, J. Abramson, S. M. Bezrukov, T. K. Rostovtseva, D. P. Hoogerheide*, and S. Yu. Noskov | The Single Residue K12 Governs the Exceptional Voltage Sensitivity of Mitochondrial Voltage-Dependent Anion Channel Gating | J. Am. Chem. Soc. 144: 14564–14577 | 2022 | |
M Rajendran, M Queralt-Martín, P A Gurnev, W M Rosencrans, A Rovini, D Jacobs, K Abrantes, D P Hoogerheide, S M Bezrukov, T K Rostovtseva | Restricting α-synuclein transport into mitochondria by inhibition of α-synuclein-VDAC complexation as a potential therapeutic target for Parkinson's disease treatment | Cell Mol Life Sci 79: 368. | 2022 | |
J. Torres, W. Surya, M. Queralt-Martin, Y. Mu, V.M. Aguilella | SARS-CoV 2 accessory protein 7b forms
homotetramers in detergent | Virology Journal, 19: 193 | 2022 | |
D.A. Perini, M. Aguilella-Arzo, A. Alcaraz, A. Perálvarez-Marín, M. Queralt-Martín | Dynorphin A induces membrane permeabilization by formation of
proteolipidic pores. Insights from electrophysiology and computational
simulations | Computational and Structural Biotechnology Journal 20: 230–240 | 2022 | |
C. Verdiá-Báguena, V.M. Aguilella, M. Queralt-Martín, A Alcaraz | Transport mechanisms of SARS-CoV-E viroporin in calcium solutions: lipid-dependent Anomalous Mole Fraction Effect and regulation of pore conductance | BBA Biomembranes, 1863: 183590 | 2021 | |
W. M. Rosencrans, V. M. Aguilella, T.K. Rostovtseva, S. M. Bezrukov | α-Synuclein emerges as a potent regulator of VDAC-facilitated calcium transport | Cell Calcium, 95: 102355 | 2021 | |
M. Queralt-Martín, D.A. Perini, A. Alcaraz. | Specific adsorption of trivalent cations in biological nanopores determines conductance dynamics and reverses ionic selectivity | Phys. Chem. Chem. Phys. 23: 1352-1362 | 2021 | |
M. Aguilella-Arzo, V.M. Aguilella | PEG Equilibrium Partitioning in the alpha-hemolysin Channel: Neutral Polymer Interaction with Channel Charges | Biomacromolecules, 22: 410-418 | 2021 | |
E. Largo, M. Queralt-Martín, P. Carravilla, J. L. Nieva, A. Alcaraz | Single-molecule conformational dynamics of viroporin ion channels regulated by lipid-protein interactions | Bioelectrochemistry, 137: 107641 | 2021 | |
M. Aguilella-Arzo, V.M. Aguilella | Access resistance in protein nanopores. A structure-based computational approach | Bioelectrochemistry, 131: 107371 | 2020 | |
D.A. Perini, A. Alcaraz, M. Queralt-Martín | Lipid headgroup charge and acyl chain composition modulate closure of
bacterial β-barrel channels | Int. J. Molecular Sciences, 20: 674-685. | 2019 | |
A. Suades, A. Alcaraz, E. Cruz, E. Álvarez-Marimon, J.P. Whitelegge, J. Manyosa, J. Cladera and A. Perálvarez-Marín | Structural biology workflow for the expression and characterization of functional human sodium glucose transporter type 1 in Pichia pastoris | Scientific Reports, 9:1203-1213. | 2019 | |
D. Gladue, E. Largo, I. de la Arada, V.M. Aguilella, A. Alcaraz, J. Arrondo, L. Holinka, E. Brocchi, E. Ramirez-Medina, E. Vuono, K. Berggren, C. Carrillo, J. Nieva, and M. Borca | Molecular characterization of the viroporin function of foot-and-mouth disease virus non-structural protein 2B | Journal of Virology, 92: e01360-18, 1-19 | 2018 | |
M. Queralt-Martín, M.L. López, M. Aguilella-Arzo, V.M. Aguilella and A. Alcaraz | Scaling behavior of ionic transport in membrane nanochannels | Nano Letters, 18: 6604−6610 | 2018 | |
C. Castaño-Rodriguez, J.M. Honrubia, J. Gutiérrez-Álvarez, M.L. DeDiego, J.L. Nieto-Torres, J.M. Jimenez-Guardeño, J.A. Regla-Nava, R. Fernandez-Delgado, C. Verdiá-Báguena, M. Queralt-Martín, G. Kochan, S. Perlman, V.M. Aguilella, I. Sola and L. Enjuanes | Role of SARS-CoV viroporins E, 3a and 8a in replication and pathogenesis | mBio 9: e02325-17 | 2018 | |
E. Largo, D. Gladue , J. Torralba, A. Alcaraz, V.M. Aguilella, M. Borca and J.L. Nieva | Mutation-induced changes of transmembrane pore size revealed by combined ion-channel conductance and single vesicle permeabilization analyses | BBA Biomembranes 1860: 1015-1021 | 2018 | |
N. Kalu, A. Alcaraz, G. Yamini, L. Lucas, C. Kenney, S. Leppla, V.M. Aguilella and E.M. Nestorovich | Effect of Lowering Endosomal acidification on small Ion Transport through the Anthrax Toxin PA63 Channel | FEBS Letters 591: 3481–3492 | 2017 | |
A. Alcaraz, M.L. López, M. Queralt-Martín and V.M. Aguilella | Ion transport in confined geometries below the nanoscale. Access resistance dominates protein channel conductance in diluted solutions | ACS Nano 11: 10392-10400 | 2017 | |
M. Aguilella-Arzo, M. Queralt-Martín, M.L. López and A. Alcaraz | Fluctuation-driven transport in biological nanopores. A 3D Poisson-Nernst-Planck study | Entropy 19: 116 | 2017 | |
J. To, W. Surya, T.-S. Fung, Y. Li, C. Verdià-Bàguena, M. Queralt-Martin, V. M. Aguilella, D.-X. Liu, and J. Torres | Structure and Assembly Channel-Inactivating Mutations and Their Revertant Mutants in the Envelope Protein of Infectious Bronchitis Virus | Journal of Virology 91 (5) e02158-16 | 2017 | |
M. Queralt-Martín, C. Peiró, M. Aguilella-Arzo and A. Alcaraz | Effects of extreme pH on ionic transport through protein nanopores: role of ion diffusion and charge exclusion | PCCP 18: 21668-21675 | 2016 | |
J.Cervera, A. Alcaraz and S. Mafé | Bioelectrical signals and ion channels in the modeling of multicellular patterns and cancer biophysics | Scientific Reports 6: 20403 | 2016 | |
A. Alcaraz and M. Queralt-Martín | On the different sources of cooperativity in pH titrating sites of a membrane protein channel | The European Physical Journal E 39:29 | 2016 | |
E. Largo, C. Verdiá-Báguena, V.M. Aguilella, J.L. Nieva and A. Alcaraz | Ion channel activity of the CFSV p7 viroporin in surrogates of the ER lipid bilayer | BBA Biomembranes 1858:30 | 2016 | |
M.L. López, M. Queralt-Martín and A. Alcaraz | Stochastic pumping of ions based on colored noise in bacterial channels under acidic stress | Nanoscale, 8: 13422 | 2016 | |
V.M. Aguilella, M. Queralt-Martín and A. Alcaraz | Bacterial Porins | Electrophysiology of Unconventional Channels and Pores A.Delcour, Edd. Springer Biophysics. Series. ISBN 978-3-319-20148-1. pp 101-121 | 2015 | |
J.L Nieto-Torres, C. Verdiá-Báguena, J. M Jimenez-Guardeño, J. A Regla-Nava, C. Castaño-Rodriguez, R. Fernandez-Delgado, J. Torres, V.M. Aguilella and L. Enjuanes | Severe Acute Respiratory Syndrome Coronavirus E protein transports calcium ions and activates the NLRP3 inflammasomes | Virology 485: 330 | 2015 | |
E. García-Giménez, A. Alcaraz, M. Aguilella-Arzo and V.M. Aguilella | Selectivity of Protein Ion Channels and the Role of Buried Charges. Analytical Solutions, Numerical Calculations, and MD Simulations | J. Phys. Chem. B 119: 8475 | 2015 | |
J.L. Nieto-Torres, C, Verdiá-Báguena, C. Castaño-Rodriguez, V.M. Aguilella and L. Enjuanes | Relevance of Viroporin Ion Channel Activity on Viral Replication and Pathogenesis | Viruses 7: 3552 | 2015 | |
M. Queralt-Martín, M.L. López,and A. Alcaraz
| Excess white noise to probe transport mechanisms in a membrane channel | Physical Review E 91: 062704 | 2015 | |
W. Surya, Y. Li, C. Verdiá-Báguena, V.M. Aguilella and J. Torres | MERS coronavirus envelope protein has a single transmembrane domain that forms pentameric ion channels | Virus Research 201:61-66 | 2015 | |
J. Cervera, A. Alcaraz and S. Mafé | Membrane Potential Bistability in Nonexcitable Cells as Described by Inward and Outward Voltage-Gated Ion Channels | J. Phys. Chem. B 118:12444-12450 | 2014 | |
A. Alcaraz, M. Queralt-Martín, C, Verdiá-Báguena, V.M. Aguilella and S. Mafé | Entropy-enthalpy compensation at the single protein level: pH sensing in the bacterial channel OmpF | Nanoscale 6: 15210-15215 | 2014 | |
Y. Li, J. To, C. Verdiá-Báguena, M. Garai, S. Dossena, W. Surya, M. Huang, M. Paulmichl, D. Liu, V.M. Aguilella and J. Torres | Inhibition of the Human Respiratory Syncytial Virus Small Hydrophobic Protein and Structural variations in a bicelle environment | J. Virol. 88: 11899-11914 | 2014 | |
O. Teijido, S.M. Rappaport, A. Chamberlin, S.Y. Noskov, V.M. Aguilella, T.K. Rostovtseva, S.M. Bezrukov | Acidification affects voltage-dependent anion channel functioning asymmetrically: Role of salt bridges | J. Biol. Chem. 289: 23670-23682 | 2014 | |
M.L. López, M. Queralt-Martín and A. Alcaraz | Experimental demonstration of charge inversion in a protein channel in the presence of monovalent cations | Electrochemistry Comm. 48: 32-34 | 2014 | |
C. Verdiá-Báguena, A. Alcaraz, V.M. Aguilella, A.M. Cioran, S. Tachikawa, H. Nakamura, F. Teixidor and C. Viñas | Amphiphilic COSAN and I2-COSAN crossing synthetic lipid membranes: planar bilayers and liposomes | Chem. Comm. 50: 6700-6703 | 2014 | |
J.L. Nieto-Torres, M.L. DeDiego, C, Verdiá-Báguena, J.M. Jimenez-Guardeño, J.A. Regla-Nava, R. Fernandez-Delgado, C. Castaño-Rodriguez, A. Alcaraz, J. Torres, V.M. Aguilella, L. Enjuanes | Severe acute respiratory syndrome coronavirus envelope protein ion channel activity promotes virus fitness and pathogenesis | PLOS Pathogens. 10: e1004077 1-19 | 2014 | |
V.M. Aguilella, C. Verdiá-Báguena and A. Alcaraz | Lipid charge regulation of non-specific biological ion channels | Phys. Chem. Chem. Phys. 16: 3881-3893 | 2014 | |
M. Queralt-Martín, C. Verdiá-Báguena, V.M. Aguilella and A. Alcaraz | Electrostatic Interactions Drive the Nonsteric Directional Block of OmpF Channel by La3+ | Langmuir 29: 15320-15327 | 2013 | |
M. Queralt-Martín, E. García-Giménez, V.M. Aguilella, P. Ramírez, S. Mafé and A. Alcaraz | Electrical pumping of potassium ions against an external concentration gradient in a biological ion channel | Applied Physics Letters 103: 043707 | 2013 | |
C. Verdiá-Báguena, J.L. Nieto-Torres, A. Alcaraz, M.L. DeDiego, L. Enjuanes and V.M. Aguilella | Analysis of SARS-CoV E protein ion channel activity by tuning the protein and lipid charge | BBA Biomembranes 1828: 2026-2031 | 2013 | |
E. Parra, A. Alcaraz, A. Cruz, V.M. Aguilella and J. Pérez-Gil | Hydrophobic Pulmonary Surfactant Proteins SP-B and SP-C Induce Pore Formation in Planar Lipid Membranes: Evidence for Proteolipid Pores | Biophysical Journal 104: 146-155 | 2013 | |
L Ferrer-Tasies, E. Moreno-Calvo, M. Cano-Sarabia, M. Aguilella-Arzo, A. Angelova, S. Lesieur, S. Ricart, J. Faraudo, N. Ventosa, J. Veciana | Quatsomes: Vesicles Formed by Self-Assembly of Sterols and Quaternary Ammonium Surfactants | Langmuir 29: 6519-6528 | 2013 | |
E. García-Giménez, A. Alcaraz, and V.M. Aguilella | Divalent Metal Ion Transport across Large Biological Ion Channels and Their Effect on Conductance and Selectivity | Biochem. Res. Int. 245786: 1-12 | 2012 | |
C. Verdiá-Báguena, J.L. Nieto-Torres, A. Alcaraz, M.L. DeDiego, J. Torres, V.M. Aguilella and L. Enjuanes | Coronavirus envelope protein forms ion channels with membrane lipids functionally and structurally involved | Virology 432: 485-494 | 2012 | |
A. Alcaraz, M. Queralt-Martin, E. Garcia-Gimenez and V.M. Aguilella | Increased salt concentration promotes competitive block of OmpF channel by protons | BBA Biomembranes 1818: 2777-2782 | 2012 | |
P. A. Gurnev, M. Queralt-Martín, V. M. Aguilella, T. K. Rostovtseva and S. M. Bezrukov | Probing tubulin-blocked state of VDAC by varying bilayer surface charge | Biophysical Journal 102: 2070-2076 | 2012 | |
C. Verdiá-Báguena, M. Queralt-Martín, V. M. Aguilella and A. Alcaraz | Protein Ion Channels as Molecular Ratchets. Switchable Current Modulation in Outer Membrane Protein F Porin Induced by Millimolar La3+ Ions | J. Phys. Chem. C 116: 6537-6542 | 2012 | |
M. Queralt-Martín, E. García-Giménez, S. Mafé and A. Alcaraz | Divalent cations reduce the pH sensitivity of OmpF channel inducing the pKa shift of key acidic residues | Phys. Chem. Chem. Phys. 13: 563-569 | 2011 | |
V. M. Aguilella, M. Queralt-Martín, M. Aguilella-Arzo and A. Alcaraz | Insights on the permeability of wide protein channels: measurement and interpretation of ion selectivity | Integrative Biology 3: 159-172 | 2011 | |
E. García-Giménez, M. L. López, V. M. Aguilella and A. Alcaraz | Linearity, saturation and blocking in a large multiionic channel: Divalent cation modulation of the OmpF porin conductance | Biochem. Biophys. Research Comm. 404: 330-334 | 2011 | |
C. Calero, J. Faraudo and M. Aguilella-Arzo | First-passage-time analysis of atomic-resolution simulations of the ionic transport in a bacterial porin | Phys. Rev. E 83: 021908 | 2011 | |
M. Queralt-Martin, M. Pradas, R. Rodriguez-Trujillo, M. Arundell, E. Corvera-Poire, and A. Hernandez-Machado | Pinning and avalanches in hydrophobic microchannels | Physical Review Letters 106: 194501 | 2011 | |
C. Calero, J. Faraudo and M. Aguilella-Arzo | Molecular dynamics simulations of concentrated aqueous electrolyte solutions | Molecular Simulation 37: 123-124 | 2011 | |
M.L. López, E. García-Giménez, V.M. Aguilella and A. Alcaraz | Critical assessment of OmpF channel selectivity: merging information from different experimental protocols | Journal of Physics: Condensed Matter 22: 454106 | 2010 | |
M. Aguilella-Arzo, C. Calero and J. Faraudo | Simulation of electrokinetics at the nanoscale: inversion of selectivity in a bio-nanochannel | Soft Matter 6: 6079-6082 | 2010 | |
J. Faraudo, C. Calero and M. Aguilella-Arzo | Ionic Partition and Transport in Multi-Ionic Channels: A Molecular Dynamics Simulation Study of the OmpF Bacterial Porin | Biophysical Journal 99: 2107-2115 | 2010 | |
M. Aguilella-Arzo and V.M. Aguilella | Continuum electrostatic calculations of the pKa of ionizable residues in an ion channel: dynamic vs. static input structure | The European Physical Journal E 31: 429-439 | 2010 | |
E. García-Giménez, A. Alcaraz and V.M. Aguilella | Overcharging below the nanoscale: Multivalent cations reverse the ion selectivity of a biological channel | Physical Review E 81: 021912 | 2010 | |
V.M. Aguilella and A. Alcaraz | A fluid approach to simple circuits | Nature Nanotechnology 4: 403-404 | 2009 | |
M.L. López, M. Aguilella-Arzo, V.M. Aguilella and A. Alcaraz | Ion selectivity of a biological channel at high concentration ratio: insights on small ion diffusion and binding | Journal of Physical Chemistry B 113: 8745-8751 | 2009 | |
E. García-Giménez, A. Alcaraz, V.M. Aguilella and P. Ramírez | Directional ion selectivity in a biological nanopore with bipolar structure | Journal of Membrane Science 331: 137-142 | 2009 | |
M. Aguilella-Arzo, A. Andrio, V. M. Aguilella and A. Alcaraz | Dielectric saturation of water in a membrane protein channel | Phys. Chem. Chem. Phys. 11: 358–365 | 2009 | |
A. Alcaraz, E. Nestorovich, M.L. López, E. García-Giménez, S.M. Bezrukov and V.M. Aguilella | Diffusion, exclusion, and specific binding in a large channel: A study of OmpF selectivity inversion | Biophysical Journal 96: 56-66 | 2009 | |
V. M. Aguilella and A. Alcaraz | Ion Selectivity of large protein ion channels | Contributions to Science 4: 11-19 | 2008 | |
J. Cervera, A. G. Komarov, and V. M. Aguilella | Rectification properties and pH-dependent selectivity of Meningococcal class 1 porin | Biophysical Journal 94: 1194-1202 | 2008 | |
J. Cervera, A. Alcaraz, B. Schiedt, R. Neumann, and P. Ramírez | Asymmetric Selectivity of Synthetic Conical Nanopores Probed by Reversal Potential Measurements | Journal of Physical Chemistry C 111: 12265-12273 | 2007 | |
P. Ramírez, V. Gómez, J. Cervera, B. Schiedt, and S. Mafé | Ion transport and selectivity in nanopores with spatially inhomogeneous fixed charge distributions | Journal of Chemical Physics 126: 194703 | 2007 | |
M. Aguilella-Arzo, J. J. García-Celma, J. Cervera, A. Alcaraz, and V. M. Aguilella | Electrostatic properties and macroscopic electrodiffusion in OmpF porin and mutants | Bioelectrochemistry 70: 320-327 | 2007 | |
V. García-Morales, J. Cervera, J. A. Manzanares | Pore entrance effects on the electrical potential distribution in charged porous membranes and ion channels | Journal of Electroanalitical Chemistry 599: 203-208 | 2007 | |
M. Aguilella-Arzo, J. Cervera, P. Ramírez, and S. Mafé | Blocking of an ion channel by a highly charged drug: Modeling the effects of applied voltage, electrolyte concentration, and drug concentration | Physical Review E 73: 041914 | 2006 | |
J. Cervera, B. Schiedt, R. Neumann, S. Mafé, and P. Ramírez | Ionic conduction, rectification, and selectivity in single conical nanopores | The Journal of Chemical Physics 124: 104706 | 2006 | |
P. Ramírez, M. Aguilella-Arzo, A. Alcaraz, J. Cervera, and V. M. Aguilella | Theoretical Description of the Ion Transport Across Nanopores With Titratable Fixed Charges: Analogies Between Ion Channels and Synthetic Pores | Cell Biochemistry and Biophysics 44 (2): 287-312 | 2006 | |
J. Cervera, B. Schiedt and P. Ramírez | A Poisson/Nernst-Planck model for ionic transport through synthetic conical nanopores | Europhysics Letters 71 (1): 35-41 | 2005 | |
S. Mafé, J. Pellicer, and J. Cervera | Kinetic modeling of ion conduction in KcsA potassium channel | The Journal of Chemical Physics 122 (20): Art. No. 204712 | 2005 | |
M. Aguilella-Arzo, V. M. Aguilella, and R. S. Eisenberg | Computing numerically the access resistance of a pore | European Biophysics Journal 34 (4): 314-322 | 2005 | |
D. P. Burt, J. Cervera, D. Mandler, J. V. Macpherson, J. A. Manzanares, P. R. Unwin | Scanning electrochemical microscopy as a probe of Ag+ binding kinetics at Langmuir phospholipid monolayers | Physical Chemistry Chemical Physics 7 (15): 2955-2964 | 2005 | |
V. García-Morales, J. Cervera, and J. Pellicer | Correct thermodynamic forces in Tsallis thermodynamics: connection with Hill nanothermodynamics | Physics Letters A 336 (1): 82-88 | 2005 | |
V. Levadny, V. M. Aguilella, M. Aguilella-Arzo, and M. Belaya | Interaction of a polar molecule with an ion channel | Physical Review E 70 Art. N. 0.41912 | 2004 | |
A. Alcaraz, E. M. Nestorovich, M. Aguilella-Arzo, V. M. Aguilella, and S. M. Bezrukov | Salting out the ionic selectivity of a wide channel: The asymmetry of OmpF | Biophysical Journal 87 (2): 943-957 | 2004 | |
V. García-Morales, J. Cervera, and J. Pellicer | Coupling theory for counterion distributions based in Tsallis statistics | Physica A 339 (3-4): 482-490 | 2004 | |
P. Ramírez, S. Mafé, V. M. Aguilella, and A. Alcaraz | Synthetic nanopores with fixed charges: An electrodiffusion model for ionic transport | Physical Review E 68 Art. N. 011910 | 2003 | |
P. Ramírez, S. Mafé, A. Alcaraz, and J. Cervera | Modeling of pH-switchable ion transport and selectivity in nanopore membranes with fixed charges | Journal of Physical Chemistry B 107 (47): 13178-13187 | 2003 | |
S. Mafé, P. Ramírez, and A. Alcaraz | Simple molecular model for the binding of antibiotic molecules to bacterial ion channels | Journal of Chemical Physics 119 (15): 8097-8102 | 2003 | |
J. Cervera, V. Garcia-Morales, and J. Pellicer | Ion size effects on the electrokinetic flow in nanoporous membranes caused by concentration gradients | Journal of Physical Chemistry B 107 (33): 8300-8309 | 2003 | |
M. Aguilella-Arzo, A. Alcaraz, and V. M. Aguilella | Heat loss and hypothermia in free diving: Estimation of survival time under water | American Journal of Physics 71 (4): 333-337 | 2003 | |
M. Lidón-López | Angular and linear acceleration in a rigid rolling body: students' misconceptions | European Journal of Physics 24: 553-562 | 2003 | |
V. Garcia-Morales, J. Cervera, and J. Pellicer | Calculation of the wetting parameter from a cluster model in the framework of nanothermodynamics | Physical Review E 67 (6): Art. No. 062103 | 2003 | |
V. Levadny, M. Colombini, X. X. Li, and V. M. Aguilella | Electrostatics explains the shift in VDAC gating with salt activity gradient | Biophysical Journal 82 (4): 1773-1783 | 2002 | |
V. Levadny, V. M. Aguilella, and M. Yamazaki | A model of pressure-induced interdigitation of phospholipid membranes | Chemical Physics Letters 360 (5-6): 515-520 | 2002 | |
P. Ramírez, A. Alcaraz, S. Mafé, and J. Pellicer | Donnan equilibrium of ionic drugs in pH-dependent fixed charge membranes: Theoretical modeling | Journal of Colloid and Interface Science 253 (1): 171-179 | 2002 | |
V. Levadny, M. Colombini, and V. M. Aguilella | A model of VDAC structural rearrangement in the presence of a salt activity gradient | Chemical Physics Letters 348 (1-2): 102-106 | 2001 | |
V. Levadny and V. M. Aguilella | Reversal potential of a wide ion channel. Nonuniform charge distribution effects | Journal of Physical Chemistry B 105 (40): 9902-9908 | 2001 | |
V. M. Aguilella and S. M. Beruzkov | Alamethicin channel conductance modified by lipid charge | European Biophysics Journal with Biophysics Letters 30 (4): 233-241 | 2001 | |
J. Cervera, J. A. Manzanares, and S. Mafe | Ion size effects on the current efficiency of narrow charged pores | Journal of Membrane Science 191 (1-2): 179-187 | 2001 | |
J. Cervera, J. A. Manzanares, and S. Mafe | Ion size effects on the streaming potential of narrow charged pores | Physical Chemistry Chemical Physics 3 (12): 2493-2496 | 2001 | |
A. Alcaraz, P. Ramírez, J.A. Manzanares, and S. Mafé | Conductive and capacitive properties of the bipolar membrane junction studied by AC impedance spectroscopy | Journal of Physical Chemistry B 105 (47): 11669-11677 | 2001 | |
A. Alcaraz, F.G. Wilhelm, M. Wessling, P. Ramírez | The role of the salt electrolyte on the electrical conductive properties of a polymeric bipolar membrane | Journal of Electroanalytical Chemistry 513 (1): 36-44 | 2001 | |
P. Ramírez, A. Alcaraz, and S. Mafé | Modeling of amino acid electrodiffusion through fixed charge membranes | Journal of Colloid and Interface Science 242 (1): 164-173 | 2001 | |
V. M. Aguilella, S. Mafé, and J. A. Manzanares | Double layer potential and degree of dissociation in charged lipid monolayers | Chemistry and Physics of Fluids 105 (2): 225-229 | 2000 | |
K. Lebedev, S. Mafé, A. Alcaraz, and P. Ramírez | Effects of water dielectric saturation on the space-charge junction of a fixed-charge bipolar membrane | Chemical Physics Letters 326 (1-2): 87-92 | 2000 | |
A. Alcaraz, P. Ramírez, S. Mafé, H. Holdik, and B. Bauer | Ion selectivity and water dissociation in polymer bipolar membranes studied by membrane potential and current-voltage measurements | Polymer 41 (17): 6627-6634 | 2000 | |
V. M. Aguilella, J. Pellicer, and M. Aguilella-Arzo | Gibbs' dividing surface between a fixed-charge membrane and an electrolyte solution. Application to electrokinetic phenomena in charged pores | Langmuir 15 (19): 6156-6162 | 1999 | |
P. Ramírez, A. Alcaraz, S. Mafé, and J. Pellicer | pH and supporting electrolyte concentration effects on the passive transport of cationic and anionic drugs through fixed charge membranes | Journal of Membrane Science 161 (1-2): 143-155 | 1999 | |
T. K. Rostovtseva, V. M. Aguilella, I. Vodyanoy, S. M. Bezrukov, and V. A. Parsegian | Membrane surface-charge titration probed by gramicidin A channel conductance | Biophysical Journal 75 (4): 1783-1792 | 1998 | |
V. Levadny, V. M. Aguilella, M. Belaya, and M Yamazaki | Ion permeability of a membrane with soft polar interfaces. 2. The polar zones as the rate-determining step | Langmuir 14 (16): 4630-4637 | 1998 | |
V. Levadny, V. M. Aguilella, and M. Belaya | Access resistance of a single conducting membrane channel | Biochimica et Biophysica Acta-Biomembranes 1368 (2): 338-342 | 1998 | |
A. Alcaraz, H. Holdik, T. Ruffing, P. Ramírez, and S. Mafé | AC impedance spectra of bipolar membranes: an experimental study | Journal of Membrane Science 150 (1): 43-56 | 1998 | |
S. Mafé, P. Ramírez, and A. Alcaraz | Electric field-assisted proton transfer and water dissociation at the junction of a fixed-charge bipolar membrane | Chemical Physics Letters 294 (4-5): 406-412 | 1998 | |
A. Alcaraz, P. Ramírez, S. Mafé, and H. Holdik | Electric field enhanced water dissociation at the bipolar membrane junction from ac impedance spectra measurements | Journal of Electroanalytical Chemistry 442 (1-2): 13-18 | 1998 | |
V. M. Aguilella, M. Belaya, and V. Levadny | Passive transport of small ions through human stratum corneum | Journal of Controlled Release 44 (1): 11-18 | 1997 | |
V. M. Aguilella, M. Belaya, and V. Levadny | A perturbed electric double layer near a soft polar interface | Journal of Colloid and Interface Science 186 (1): 212-214 | 1997 | |
P. Ramírez, A. Alcaraz, and S. Mafé | Effects of pH on ion transport in weak amphoteric membranes | Journal of Electroanalytical Chemistry 436 (1-2): 119-125 | 1997 | |
P. Ramírez, A. Alcaraz, and S. Mafé | Model calculations of ion transport against its concentration gradient when the driving force is a pH difference across a charged membrane | Journal of Membrane Science 135 (1): 135-144 | 1997 | |
V. M. Aguilella, M. Belaya, V. Levadny | Ion permeability of a membrane with soft polar interfaces. 1. The hydrophobic layer as the rate-determining step | Langmuir 12 (20): 4817-4827 | 1996 | |
V. M. Aguilella, M. Aguilella-Arzo, and P. Ramírez | Electrokinetic phenomena in microporous membranes with a fixed transverse charge distribution | Journal of Membrane Science 113 (2): 191-204 | 1996 | |
V. M. Aguilella, M. Belaya, and V. Levadny | Ion transport through membranes with soft interfaces. The influence of the polar zone thickness | Thin Solid Films 272 (1): 10-14 | 1996 | |
A. Alcaraz, P. Ramírez, S. Mafé, and H. Holdik | A Simple Model for Ac Impedance Spectra in Bipolar Membranes | Journal of Physical Chemistry 100 (38): 15555-15561 | 1996 | |
V. M. Aguilella, K. Kontturi, L. Murtomaki, P. Ramirez | Estimation of the pore-size and charge-density in human cadaver skin | Journal of Controlled Release 32 (3): 249-257 | 1994 | |
V. M. Aguilella, J. A. Manzanares, and J. Pellicer | Ion Adsorption in weakly charged membranes - effects on salt flux and membrane-potential | Langmuir 9 (2): 550-554 | 1993 | |
P. Ramírez, V. M. Aguilella, J. A. Manzanares, and S. Mafé | Effects of temperature and ion-transport on water splitting in bipolar membranes | Journal of Membrane Science 73(2-3): 191-201 | 1992 | |
V. M. Aguilella, S. Mafé, J. A. Manzanares, and J. Pellicer | Current voltage curves for ion-exchange membranes - contributions to the total potential drop | Journal of Membrane Science 61: 177-190 | 1991 | |
J. A. Manzanares, K. Kontturi, S. Mafé, V. M. Aguilella, and J. Pellicer | Polarization effects at the cation-exchange membrane-solution interface | Acta Chemica Scandinavica 45 (2) 115-121 | 1991 | |
J. Garrido, S. Mafé, and V. M. Aguilella | Transport processes through membranes with gaseous electrodes | Electrochimica Acta 34 (10): 1385-1386 | 1989 | |
V. M. Aguilella, S. Mafé, and J. Pellicer | Ionic transport through a homogeneous membrane in the presence of simultaneous diffusion, conduction and convection | Journal of the Chemical Society - Faraday Transactions I 85 (part 2): 223-235 | 1989 | |
J. Garrido, S. Mafé, and V. M. Aguilella | Observable variables of the transport processes in discontinuous systems | Electrochimica Acta 33 (8): 1151-1155 | 1988 | |
S. Mafé, V. M. Aguilella, and J. Pellicer | Film Control and membrane control in charged membranes | Journal of Membrane Science 36: 497-509 | 1988 | |
S. Mafé, J. Pellicer, and V. M. Aguilella | Numerical approach to ionic transport through charged membranes | Journal of Computational Physics | 1988 | |
S. Mafé, J. Pellicer, V. M. Aguilella, and J. Garrido | A study of the failure of the electroneutrality assumption in the vicinity of the inner membrane boundaries | Journal of Non-equilibrium Thermodynamics 12 (2): 161-168 | 1987 | |
V. M. Aguilella, S. Mafé, and J. Pellicer | On the nature of the diffusion potential derived from Nernst-Planck flux equations by using the electroneutrality assumption | Electrochimica Acta 32 (3): 483-488 | 1987 | |
J. Pellicer, V. M. Aguilella, and S. Mafé | Validity of the electroneutrality and Goldman constant-field assumptions in describing the diffusion potential for ternary electrolyte systems in simple, porous membranes | Journal of Membrane Science 29 (2): 117-126 | 1986 | |
J. Pellicer, S. Mafé, and V. M. Aguilella | Ionic transport across porous charged membranes and the Goldman constant field assumption | Berichte der Bunsen/Gesellschaft-Physical Chemistry Chemical Physics 90 (10): 867-872 | 1986 | |
S. Mafé, J. Pellicer, and V. M. Aguilella | Ionic transport and space-charge density in electrolytic solutions as described by Nernst-Planck and Poisson equations | Journal of Physical Chemistry 90 (22): 6045-6050 | 1986 | |
V. M. Aguilella, J. Garrido, S. Mafé, and J. Pellicer | A finite-difference method for numerical solution of the steady-state Nernst-Planck equations with nonzero convection and electric current density | Journal of Membrane Science 28 (2): 139-149 | 1986 | |
S. Mafé, J. Pellicer, and V. M. Aguilella | The Goldman constant field assumption - significance and applicability conditions | Berichte der Bunsen/Gesellschaft-Physical Chemistry Chemical Physics 90 (5): 476-479 | 1986 | |