| Q34017714 | "Adaptive" behavior of ligand-gated ion channels: constraints by thermodynamics |
| Q73435893 | 'Quantal' calcium release operated by membrane voltage in frog skeletal muscle |
| Q41788270 | A human ventricular myocyte model with a refined representation of excitation-contraction coupling |
| Q40274312 | A mathematical analysis of the generation and termination of calcium sparks |
| Q41944060 | A minimal gating model for the cardiac calcium release channel |
| Q34018987 | A model of calcium dynamics in cardiac myocytes based on the kinetics of ryanodine-sensitive calcium channels |
| Q34182606 | A model of calcium waves in pancreatic and parotid acinar cells |
| Q38508746 | A novel method for incorporation of ion channels into a planar phospholipid bilayer which allows solution changes on a millisecond timescale |
| Q39653769 | Activation of ryanodine receptors by flash photolysis of caged Ca2+ |
| Q36738811 | Activation of single cardiac and skeletal ryanodine receptor channels by flash photolysis of caged Ca2+. |
| Q71556535 | Adaptation of Ca(2+)-triggered exocytosis in presynaptic terminals |
| Q33916826 | Adaptation of single cardiac ryanodine receptor channels |
| Q36833507 | Adaptive control of intracellular Ca2+ release in C2C12 mouse myotubes |
| Q33947540 | An integrative model of the cardiac ventricular myocyte incorporating local control of Ca2+ release. |
| Q30577129 | Analysis of calcium-induced calcium release in cardiac sarcoplasmic reticulum vesicles using models derived from single-channel data. |
| Q33849622 | Analysis of osmotic stress induced Ca2+ spark termination in mammalian skeletal muscle |
| Q33915528 | Analytical calculation of intracellular calcium wave characteristics. |
| Q54571984 | Bcl-x(L) forms an ion channel in synthetic lipid membranes. |
| Q37379759 | Beta-adrenergic signaling accelerates and synchronizes cardiac ryanodine receptor response to a single L-type Ca2+ channel |
| Q35049794 | Bilayer measurement of endoplasmic reticulum Ca2+ channels |
| Q72096804 | Ca(2+)-dependent negative control mechanism for Ca(2+)-induced Ca2+ release in crayfish muscle |
| Q36417603 | Ca(2+)-induced Ca2+ release phenomena in mammalian sympathetic neurons are critically dependent on the rate of rise of trigger Ca2+ |
| Q71629430 | Ca2+ activation and Ca2+ inactivation of canine reconstituted cardiac sarcoplasmic reticulum Ca(2+)-release channels |
| Q33844840 | Ca2+ blinks: rapid nanoscopic store calcium signaling |
| Q42084261 | Ca2+ entry into PC12 cells initiated by ryanodine receptors or inositol 1,4,5-trisphosphate receptors |
| Q71751550 | Ca2+ modulation of sarcoplasmic reticulum Ca2+ release in rat skeletal muscle fibers |
| Q42405023 | Ca2+ nanosparks: shining light on the dyadic cleft but missing the intensity of its signal |
| Q43560546 | Ca2+ signalling between single L-type Ca2+ channels and ryanodine receptors in heart cells |
| Q43009491 | Ca2+ spark termination: inactivation and adaptation may be manifestations of the same mechanism |
| Q28292368 | Ca2+ stores regulate ryanodine receptor Ca2+ release channels via luminal and cytosolic Ca2+ sites |
| Q36411859 | Ca2+-induced Ca2+ release in Chinese hamster ovary (CHO) cells co-expressing dihydropyridine and ryanodine receptors |
| Q33611715 | CaMKII regulation of cardiac ryanodine receptors and inositol triphosphate receptors |
| Q74114639 | Caffeine mediates cation influx and intracellular Ca2+ release in leech P neurones |
| Q77610190 | Caffeine-induced [Ca2+] oscillations in neurones of frog sympathetic ganglia |
| Q39460855 | Caged calcium and the ryanodine receptor |
| Q36913211 | Calcium Sparks in the Heart: Dynamics and Regulation |
| Q39419376 | Calcium and Excitation-Contraction Coupling in the Heart |
| Q48953818 | Calcium dependence and distribution of calcium-activated chloride channels in Xenopus oocytes |
| Q34019791 | Calcium oscillations and waves: is the IP3R Ca2+ channel the culprit? |
| Q41953874 | Calcium regulation of single ryanodine receptor channel gating analyzed using HMM/MCMC statistical methods. |
| Q34661611 | Calcium release in skeletal muscle: from K+ contractures to Ca2+ sparks |
| Q30639154 | Calcium signalling in cardiac muscle: refractoriness revealed by coherent activation. |
| Q33537483 | Calcium sparks: release packets of uncertain origin and fundamental role |
| Q41000747 | Calcium-induced calcium release in neurones |
| Q43135829 | Calcium-induced transitions between the spontaneous miniature outward and the transient outward currents in retinal amacrine cells |
| Q34167319 | Cardiac Ca2+ dynamics: the roles of ryanodine receptor adaptation and sarcoplasmic reticulum load |
| Q28216347 | Cardiac excitation-contraction coupling |
| Q70917629 | Control of sarcoplasmic reticulum calcium release during calcium loading in isolated rat ventricular myocytes |
| Q33720382 | Controlling the urge for a Ca(2+) surge: all-or-none Ca(2+) release in neurons |
| Q36308976 | Coupled gating of skeletal muscle ryanodine receptors is modulated by Ca2+, Mg2+, and ATP. |
| Q35998110 | Cytosolic Ca²⁺ buffering determines the intra-SR Ca²⁺ concentration at which cardiac Ca²⁺ sparks terminate |
| Q95569526 | DYNAMICS OF CARDIAC INTRACELLULAR Ca2+ HANDLING — FROM EXPERIMENTS TO VIRTUAL CELLS |
| Q34028261 | Deciphering ryanodine receptor array operation in cardiac myocytes. |
| Q42183426 | Description of modal gating of the cardiac calcium release channel in planar lipid membranes |
| Q32061181 | Detection and functional characterization of ryanodine receptors from sea urchin eggs |
| Q54105527 | Differential purinergic receptor signalling in osteoclasts and osteoblastic cells. |
| Q49093485 | Direct measurement of SR release flux by tracking 'Ca2+ spikes' in rat cardiac myocytes. |
| Q34094499 | Do inactivation mechanisms rather than adaptation hold the key to understanding ryanodine receptor channel gating? |
| Q73623832 | Effects of 1- or -adrenoceptor stimulation on work-loop and isometric contractions of isolated rat cardiac trabeculae |
| Q53965647 | Effects of free oxygen radicals on Ca2+ release mechanisms in the sarcoplasmic reticulum of scallop (Pecten jacobaeus) adductor muscle. |
| Q34433124 | Electrophysiological modeling of cardiac ventricular function: from cell to organ |
| Q36502988 | Elementary calcium release events from the sarcoplasmic reticulum in the heart |
| Q37663372 | Eudistomin D and penaresin derivatives as modulators of ryanodine receptor channels and sarcoplasmic reticulum Ca2+ ATPase in striated muscle |
| Q36864491 | Extinguishing the sparks |
| Q71549845 | Fluctuations of inhibitory postsynaptic currents in Purkinje cells from rat cerebellar slices |
| Q33590295 | Flux regulation of cardiac ryanodine receptor channels |
| Q34809771 | Functional coupling of Ca2+ channels and ryanodine receptors in cardiac myocytes |
| Q40425863 | Functional properties of intracellular calcium-release channels |
| Q77193802 | Highly selective sigma receptor ligands elevate inositol 1,4,5-trisphosphate production in rat cardiac myocytes |
| Q38968792 | Hysteresis in voltage-gated channels |
| Q47959474 | IP3 receptor signaling and endothelial barrier function |
| Q33813481 | Impact of sarcoplasmic reticulum calcium release on calcium dynamics and action potential morphology in human atrial myocytes: a computational study |
| Q41621825 | Implementation of a flash-photolysis system for time-resolved cryo-electron microscopy |
| Q34167816 | Inactivation of Ca2+ release channels (ryanodine receptors RyR1 and RyR2) with rapid steps in [Ca2+] and voltage |
| Q72066242 | Information processing subsystems internal transducer signaling within the system |
| Q34568235 | Inositol (1,4,5)-trisphosphate receptor microarchitecture shapes Ca2+ puff kinetics |
| Q33507672 | Inositol trisphosphate receptor and ion channel models based on single-channel data |
| Q37826593 | Integrative systems models of cardiac excitation-contraction coupling |
| Q34680310 | Interplay of ryanodine receptor distribution and calcium dynamics |
| Q43286787 | Intra-sarcoplasmic reticulum Ca2+ oscillations are driven by dynamic regulation of ryanodine receptor function by luminal Ca2+ in cardiomyocytes |
| Q71853852 | Intracellular citrate induces regenerative calcium release from sarcoplasmic reticulum in guinea-pig atrial myocytes |
| Q48479171 | Kinetic basis of quantal calcium release from intracellular calcium stores. |
| Q43002729 | Kinetic model of the inositol trisphosphate receptor that shows both steady-state and quantal patterns of Ca2+ release from intracellular stores |
| Q40233360 | Kinetic studies of calcium-induced calcium release in cardiac sarcoplasmic reticulum vesicles |
| Q34017259 | Laser photolysis of caged calcium: rates of calcium release by nitrophenyl-EGTA and DM-nitrophen |
| Q36435930 | Local control model of excitation-contraction coupling in skeletal muscle |
| Q36420392 | Local control models of cardiac excitation-contraction coupling. A possible role for allosteric interactions between ryanodine receptors |
| Q30792187 | Local regulation of the threshold for calcium sparks in rat ventricular myocytes: role of sodium-calcium exchange. |
| Q33917005 | Luminal Ca(2+) content regulates intracellular Ca(2+) release in subepicardial myocytes of intact beating mouse hearts: effect of exogenous buffers |
| Q41079501 | Mechanisms responsible for quantal Ca2+ release from inositol trisphosphate-sensitive calcium stores |
| Q39981612 | Modeling CICR in rat ventricular myocytes: voltage clamp studies. |
| Q40150660 | Modeling gain and gradedness of Ca2+ release in the functional unit of the cardiac diadic space |
| Q33877845 | Models of cardiac excitation-contraction coupling in ventricular myocytes |
| Q41778353 | Models of excitation-contraction coupling in cardiac ventricular myocytes |
| Q97420308 | Modulation of KV7 Channel Deactivation by PI(4,5)P2 |
| Q77743529 | Modulation of intracellular Ca2+ levels in the heart by sorcin and FKBP12, two accessory proteins of ryanodine receptors |
| Q39038606 | Murine Electrophysiological Models of Cardiac Arrhythmogenesis |
| Q44324540 | NTP, the photoproduct of nifedipine, activates caffeine-sensitive ion channels in leech neurons |
| Q34018304 | Negative control mechanism with features of adaptation controls Ca2+ release in cardiac myocytes |
| Q28552244 | Nonequilibrium Enhances Adaptation Efficiency of Stochastic Biochemical Systems |
| Q33275516 | Novel approach to real-time flash photolysis and confocal [Ca2+] imaging |
| Q42928706 | Numerical analysis of ryanodine receptor activation by L-type channel activity in the cardiac muscle diad |
| Q42599179 | One calcium ion may suffice to open the tetrameric cardiac ryanodine receptor in rat ventricular myocytes |
| Q36459152 | Partial inhibition of sarcoplasmic reticulum ca release evokes long-lasting ca release events in ventricular myocytes: role of luminal ca in termination of ca release |
| Q40430253 | Phasic characteristic of elementary Ca(2+) release sites underlies quantal responses to IP(3). |
| Q41874915 | Quantal Ca2+ mobilization by ryanodine receptors is due to all-or-none release from functionally discrete intracellular stores |
| Q36702655 | Quantal puffs of intracellular Ca2+ evoked by inositol trisphosphate in Xenopus oocytes |
| Q48256501 | Quenching the spark: Termination of CICR in the submicroscopic space of the dyad. |
| Q34094509 | Questions about adaptation in ryanodine receptors |
| Q36439012 | Rapid activation of the cardiac ryanodine receptor by submillisecond calcium stimuli |
| Q43027230 | Rapid adaptation of cardiac ryanodine receptors: modulation by Mg2+ and phosphorylation |
| Q40431849 | Regulation of Nuclear Calcium Concentration |
| Q71468223 | Regulation of calcium release by calcium inside the sarcoplasmic reticulum in ventricular myocytes |
| Q34169317 | Regulation of cardiac muscle Ca2+ release channel by sarcoplasmic reticulum lumenal Ca2+ |
| Q73500188 | Regulation of the cytosolic Ca2+ concentration by Ca2+ stores in single smooth muscle cells from rat cerebral arteries |
| Q30538307 | Response of ryanodine receptor channels to Ca2+ steps produced by rapid solution exchange |
| Q41681463 | Ryanodine receptor 'adaptation': a flash in the pan? |
| Q34094504 | Ryanodine receptor adaptation |
| Q34041377 | Ryanodine receptor adaptation and Ca2+(-)induced Ca2+ release-dependent Ca2+ oscillations |
| Q59270311 | Ryanodine receptors |
| Q41355534 | Ryanodine receptors selectively contribute to the formation of taste‐evoked calcium signals in mouse taste cells |
| Q42436555 | Ryanodine stores and calcium regulation in the inner segments of salamander rods and cones. |
| Q34168544 | Saltatory propagation of Ca2+ waves by Ca2+ sparks |
| Q48008693 | Sarcoplasmic reticulum in heart failure: central player or bystander? |
| Q34016942 | Simplification and analysis of models of calcium dynamics based on IP3-sensitive calcium channel kinetics |
| Q24316053 | Sorcin associates with the pore-forming subunit of voltage-dependent L-type Ca2+ channels |
| Q46315273 | Spark-to-wave transition: saltatory transmission of calcium waves in cardiac myocytes. |
| Q24531467 | Spatial non-uniformities in [Ca2+]i during excitation-contraction coupling in cardiac myocytes |
| Q34019013 | Streaming potentials reveal a short ryanodine-sensitive selectivity filter in cardiac Ca2+ release channel |
| Q47857226 | Studies of molecular motors using caged compounds |
| Q30538305 | Surface potentials measure ion concentrations near lipid bilayers during rapid solution changes |
| Q36760508 | Termination of Ca2+ release by a local inactivation of ryanodine receptors in cardiac myocytes |
| Q52243108 | Termination of Ca2+ release during Ca2+ sparks in rat ventricular myocytes. |
| Q34178203 | Termination of cardiac Ca(2+) sparks: an investigative mathematical model of calcium-induced calcium release |
| Q42087741 | Termination of cardiac Ca2+ sparks: role of intra-SR [Ca2+], release flux, and intra-SR Ca2+ diffusion |
| Q53945781 | The control of Ca release from the cardiac sarcoplasmic reticulum: regulation versus autoregulation. |
| Q73397043 | The effect of Ca(2+)-calmodulin-dependent protein kinase II on cardiac excitation-contraction coupling in ferret ventricular myocytes |
| Q41991642 | The effects of free [Ca2+] on the cytosolic face of the inositol (1,4,5)-trisphosphate receptor at the single channel level |
| Q53970618 | The immunophilin FK506-binding protein modulates Ca2+ release channel closure in rat heart. |
| Q40415550 | The inositol 1,4,5-trisphosphate (InsP3) receptor |
| Q34988314 | The molecular organization of cerebellar long-term depression |
| Q40380738 | The ryanodine receptor family of intracellular calcium release channels. |
| Q35831784 | Transient inositol 1,4,5-trisphosphate-induced Ca2+ release: a model based on regulatory Ca(2+)-binding sites along the permeation pathway |
| Q74017456 | Variability in frequency and characteristics of Ca2+ sparks at different release sites in rat ventricular myocytes |
| Q53951066 | Voltage change-induced gating transitions of the rabbit skeletal muscle Ca2+ release channel. |
| Q34129336 | [Ca2+]i oscillations in sympathetic neurons: an experimental test of a theoretical model |