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Search Results to Dirk Gillespie

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overview My ORCID is 0000-0003-0802-5352. My Scopus ID is 7201826968. My NIH COMMONS name is DGILLESP. Research Areas: Cardiac excitation/contraction coupling, calcium-induced calcium release, calcium channel selectivity, nanofluidics, classical density functional theory of electrolytes. My Faculty Profile at Rush University Medical Center: My Laboratory: My NCBI Bibliography: My Scopus: Education: PhD, Rush University MS, Northwestern University BA, Johns Hopkins University

One or more keywords matched the following items that are connected to Gillespie, Dirk

Item TypeName
Concept Calcium Channel Blockers
Concept Calcium Channels
Concept Calcium Channels, L-Type
Concept Calcium
Concept Sarcoplasmic Reticulum Calcium-Transporting ATPases
Concept Calcium Signaling
Concept Calcium Chloride
Concept Ryanodine Receptor Calcium Release Channel
Academic Article Permeation properties of an engineered bacterial OmpF porin containing the EEEE-locus of Ca2+ channels.
Academic Article Probing the role of negatively charged amino acid residues in ion permeation of skeletal muscle ryanodine receptor.
Academic Article Two rings of negative charges in the cytosolic vestibule of type-1 ryanodine receptor modulate ion fluxes.
Academic Article (De)constructing the ryanodine receptor: modeling ion permeation and selectivity of the calcium release channel.
Academic Article The effect of protein dielectric coefficient on the ionic selectivity of a calcium channel.
Academic Article Ca2+ selectivity of a chemically modified OmpF with reduced pore volume.
Academic Article Combined effect of pore radius and protein dielectric coefficient on the selectivity of a calcium channel.
Academic Article Steric selectivity in Na channels arising from protein polarization and mobile side chains.
Academic Article Energetics of divalent selectivity in a calcium channel: the ryanodine receptor case study.
Academic Article Volume exclusion in calcium selective channels.
Academic Article Simulating prescribed particle densities in the grand canonical ensemble using iterative algorithms.
Academic Article The anomalous mole fraction effect in calcium channels: a measure of preferential selectivity.
Academic Article Intracellular calcium release channels mediate their own countercurrent: the ryanodine receptor case study.
Academic Article Tuning transport properties of nanofluidic devices with local charge inversion.
Academic Article Ionic selectivity in L-type calcium channels by electrostatics and hard-core repulsion.
Academic Article Protein structure and ionic selectivity in calcium channels: selectivity filter size, not shape, matters.
Academic Article Reinterpreting the anomalous mole fraction effect: the ryanodine receptor case study.
Academic Article Sieving experiments and pore diameter: it's not a simple relationship.
Academic Article Simulations of calcium channel block by trivalent cations: Gd(3+) competes with permeant ions for the selectivity filter.
Academic Article Analyzing the components of the free-energy landscape in a calcium selective ion channel by Widom's particle insertion method.
Academic Article Selectivity sequences in a model calcium channel: role of electrostatic field strength.
Academic Article Current and selectivity in a model sodium channel under physiological conditions: Dynamic Monte Carlo simulations.
Academic Article Is ryanodine receptor a calcium or magnesium channel? Roles of K+ and Mg2+ during Ca2+ release.
Academic Article Ryanodine receptor current amplitude controls Ca2+ sparks in cardiac muscle.
Academic Article Ion correlations in nanofluidic channels: effects of ion size, valence, and concentration on voltage- and pressure-driven currents.
Academic Article Pernicious attrition and inter-RyR2 CICR current control in cardiac muscle.
Academic Article The role of solvation in the binding selectivity of the L-type calcium channel.
Academic Article Sarcoplasmic reticulum K(+) (TRIC) channel does not carry essential countercurrent during Ca(2+) release.
Academic Article Selecting ions by size in a calcium channel: the ryanodine receptor case study.
Academic Article PACO: PArticle COunting Method To Enforce Concentrations in Dynamic Simulations.
Academic Article Sarcoplasmic reticulum Ca2+, Mg2+, K+, and Cl- concentrations adjust quickly as heart rate changes.
Academic Article Calsequestrin depolymerizes when calcium is depleted in the sarcoplasmic reticulum of working muscle.
Academic Article Selective transport through a model calcium channel studied by Local Equilibrium Monte Carlo simulations coupled to the Nernst-Planck equation
Academic Article Monte Carlo simulation study of a system with a dielectric boundary: Application to calcium channel selectivity
Academic Article Ion accumulation in a biological calcium channel: effects of solvent and confining pressure
Academic Article Sarcoplasmic Reticulum Ca2+ Release Uses a Cascading Network of Intra-SR and Channel Countercurrents.
Academic Article Ryanodine Receptor Open Times Are Determined in the Closed State.

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  • Calcium