scholarly article | Q13442814 |
P2093 | author name string | Zhiyuan Li | |
Damien S. K. Samways | |||
Terrance M. Egan | |||
P2860 | cites work | Trimeric architecture of homomeric P2X2 and heteromeric P2X1+2 receptor subtypes | Q24301398 |
Pannexin-1 mediates large pore formation and interleukin-1beta release by the ATP-gated P2X7 receptor | Q24306745 | ||
Characterization and chromosomal localization of a human P2X receptor from the urinary bladder | Q24310346 | ||
Characterization of recombinant human P2X4 receptor reveals pharmacological differences to the rat homologue | Q24317169 | ||
P2X1 and P2X3 receptors form stable trimers: a novel structural motif of ligand-gated ion channels | Q24533248 | ||
Molecular and functional properties of P2X receptors--recent progress and persisting challenges | Q24617046 | ||
Ion access pathway to the transmembrane pore in P2X receptor channels | Q24629121 | ||
Single channel properties of P2X2 purinoceptors | Q24642353 | ||
Mechanism of ivermectin facilitation of human P2X4 receptor channels | Q24644507 | ||
Mammalian nicotinic acetylcholine receptors: from structure to function | Q24647069 | ||
Crystal structure of the ATP-gated P2X(4) ion channel in the closed state | Q24657193 | ||
The Hodgkin-Huxley heritage: from channels to circuits | Q26866491 | ||
Structural plasticity and dynamic selectivity of acid-sensing ion channel–spider toxin complexes | Q27670938 | ||
Molecular mechanism of ATP binding and ion channel activation in P2X receptors | Q27678739 | ||
Hetero-oligomeric assembly of P2X receptor subunits. Specificities exist with regard to possible partners | Q28137807 | ||
A protein kinase C site highly conserved in P2X subunits controls the desensitization kinetics of P2X(2) ATP-gated channels | Q28140321 | ||
Allosteric control of gating and kinetics at P2X(4) receptor channels | Q28142880 | ||
Polar residues of the second transmembrane domain influence cation permeability of the ATP-gated P2X(2) receptor | Q28201447 | ||
Molecular physiology of P2X receptors | Q28203477 | ||
Biophysics of P2X receptors | Q28240953 | ||
P2X receptors as cell-surface ATP sensors in health and disease | Q28255603 | ||
Glutamate receptor ion channels: structure, regulation, and function | Q28290774 | ||
Atomic force microscopy imaging demonstrates that P2X2 receptors are trimers but that P2X6 receptor subunits do not oligomerize | Q28303030 | ||
Molecular properties of P2X receptors | Q28306596 | ||
Voltage and concentration dependence of Ca(2+) permeability in recombinant glutamate receptor subtypes | Q28344390 | ||
The cytolytic P2Z receptor for extracellular ATP identified as a P2X receptor (P2X7) | Q28568856 | ||
Coexpression of rat P2X2 and P2X6 subunits in Xenopus oocytes. | Q48887894 | ||
Contribution of individual subunits to the multimeric P2X(2) receptor: estimates based on methanethiosulfonate block at T336C. | Q48906948 | ||
P2X7 purinoceptor expression in Xenopus oocytes is not sufficient to produce a pore-forming P2Z-like phenotype | Q48955005 | ||
The ATP4− Receptor-Operated Channel (P2Z Class) of Human Lymphocytes Allows Ba2+ and Ethidium+ Uptake: Inhibition of Fluxes by Suramin | Q50125006 | ||
Role of action potentials and calcium influx in ATP- and UDP-induced noradrenaline release from rat cultured sympathetic neurones. | Q50516631 | ||
Characteristics of P2X7 receptors from human B lymphocytes expressed in Xenopus oocytes. | Q50722562 | ||
ATP4- permeabilizes the plasma membrane of mouse macrophages to fluorescent dyes. | Q50902451 | ||
ATP stimulates sympathetic transmitter release via presynaptic P2X purinoceptors. | Q51482198 | ||
Ca2+-permeable P2X receptor channels in cultured rat retinal ganglion cells. | Q52177757 | ||
The use of fura-2 for estimating Ca buffers and Ca fluxes. | Q52324742 | ||
Kinetics of cell lysis, dye uptake and permeability changes in cells expressing the rat P2X7 receptor. | Q52536118 | ||
P2X4 receptor channels form large noncytolytic pores in resting and activated microglia. | Q53186766 | ||
Conductance and kinetic properties of single nicotinic acetylcholine receptor channels in rat sympathetic neurones. | Q54075759 | ||
Single-channel conductances of NMDA receptors expressed from cloned cDNAs: comparison with native receptors | Q57908070 | ||
Changes in Cytoplasmic Calcium Induced by Purinergic P2x Receptor Activation in Vascular Smooth Muscle Cells and Sensory Neurons | Q67877613 | ||
Characterisation of the ATP4- receptor that mediates permeabilisation of rat mast cells | Q68364588 | ||
Single channel properties of ATP-gated cation channels (P2X receptors) heterologously expressed in Chinese hamster ovary cells | Q71618569 | ||
Nonselective cationic currents elicited by extracellular ATP in human B-lymphocytes | Q71698449 | ||
Ionic permeability of, and divalent cation effects on, two ATP-gated cation channels (P2X receptors) expressed in mammalian cells | Q71877054 | ||
Gated access to the pore of a voltage-dependent K+ channel | Q73564876 | ||
P2X7 receptors in Müller glial cells from the human retina | Q74139671 | ||
A domain contributing to the ion channel of ATP-gated P2X2 receptors identified by the substituted cysteine accessibility method | Q74315052 | ||
Genomic structure, developmental distribution and functional properties of the chicken P2X(5) receptor | Q40801628 | ||
Amino acid residues involved in gating identified in the first membrane-spanning domain of the rat P2X(2) receptor | Q40816581 | ||
Ion permeation and block of P2X(2) purinoceptors: single channel recordings | Q40916730 | ||
Pore dilation of neuronal P2X receptor channels | Q40960421 | ||
Co-expression of P2X1 and P2X5 receptor subunits reveals a novel ATP-gated ion channel. | Q40987897 | ||
N-Linked glycosylation is essential for the functional expression of the recombinant P2X2 receptor | Q41002033 | ||
The activation gate of a voltage-gated K+ channel can be trapped in the open state by an intersubunit metal bridge | Q41003350 | ||
Membrane topology of an ATP-gated ion channel (P2X receptor). | Q41034616 | ||
Topological analysis of the ATP-gated ionotropic [correction of ionotrophic] P2X2 receptor subunit | Q41051612 | ||
Sensory presynaptic and widespread somatodendritic immunolocalization of central ionotropic P2X ATP receptors | Q41065167 | ||
Effects of divalent cations, protons and calmidazolium at the rat P2X7 receptor | Q41080074 | ||
Identification of amino acid residues contributing to the pore of a P2X receptor | Q41106961 | ||
Distinct ATP receptors on pain-sensing and stretch-sensing neurons. | Q41109141 | ||
Differential activation of cation channels and non-selective pores by macrophage P2z purinergic receptors expressed in Xenopus oocytes. | Q41468237 | ||
P2X receptor channels show threefold symmetry in ionic charge selectivity and unitary conductance. | Q41526271 | ||
Neuronal P2X transmitter-gated cation channels change their ion selectivity in seconds. | Q41646184 | ||
Mass spectrometry analysis of human P2X1 receptors; insight into phosphorylation, modelling and conformational changes | Q42095503 | ||
Calcium-dependent decrease in the single-channel conductance of TRPV1. | Q42139744 | ||
P2X receptor-mediated excitation of nociceptive afferents in the normal and arthritic rat knee joint | Q42182102 | ||
Excitatory effect of P2X receptor activation on mesenteric afferent nerves in the anaesthetised rat. | Q42478786 | ||
Many ways to dilate the P2X7 receptor pore | Q42789183 | ||
Dynamic changes in the TRPA1 selectivity filter lead to progressive but reversible pore dilation | Q43067153 | ||
Stimulation of mouse cultured sympathetic neurons by uracil but not adenine nucleotides. | Q43581280 | ||
The first transmembrane domain of the P2X receptor subunit participates in the agonist-induced gating of the channel | Q43662761 | ||
A strategy for mapping and neutralizing conformational immunogenic sites on protein therapeutics | Q43938812 | ||
Evoked and spontaneous purinergic junctional Ca2+ transients (jCaTs) in rat small arteries | Q44145576 | ||
Single-channel properties of native and cloned rat vanilloid receptors | Q44218020 | ||
Mitogen-activated protein kinase and caspase signaling pathways are required for P2X7 receptor (P2X7R)-induced pore formation in human THP-1 cells | Q44666463 | ||
Mechanisms underlying postjunctional synergism between responses of the vas deferens to noradrenaline and ATP. | Q45056282 | ||
Activation of ureter nociceptors by exogenous and endogenous ATP in guinea pig. | Q45157409 | ||
P2X7 receptor channels allow direct permeation of nanometer-sized dyes. | Q45529200 | ||
P2X(1) receptor subunit contribution to gating revealed by a dominant negative PKC mutant | Q45713476 | ||
ATP receptor-mediated enhancement of fast excitatory neurotransmitter release in the brain | Q47752743 | ||
Metals in proteins: correlation between the metal-ion type, coordination number and the amino-acid residues involved in the coordination. | Q47864669 | ||
Calcium permeability and block at homomeric and heteromeric P2X2 and P2X3 receptors, and P2X receptors in rat nodose neurones | Q47977257 | ||
P2X2 and P2X5 subunits define a new heteromeric receptor with P2X7-like properties. | Q48601198 | ||
A modulatory subunit of acid sensing ion channels in brain and dorsal root ganglion cells | Q28572405 | ||
A new class of ligand-gated ion channel defined by P2X receptor for extracellular ATP | Q28573068 | ||
Silver as a probe of pore-forming residues in a potassium channel | Q30193514 | ||
Pannexin1 is part of the pore forming unit of the P2X(7) receptor death complex | Q30479449 | ||
Activity-dependent targeting of TRPV1 with a pore-permeating capsaicin analog | Q30500428 | ||
The sources and sequestration of Ca(2+) contributing to neuroeffector Ca(2+) transients in the mouse vas deferens | Q33193075 | ||
Calcium permeability of ligand-gated channels | Q33544676 | ||
Dynamic selectivity filters in ion channels | Q33731015 | ||
Gated access to the pore of a P2X receptor: structural implications for closed-open transitions. | Q33744436 | ||
P2X4 receptors in activated C8-B4 cells of cerebellar microglial origin | Q33763156 | ||
A putative extracellular salt bridge at the subunit interface contributes to the ion channel function of the ATP-gated P2X2 receptor | Q33855098 | ||
Atomic distance estimates from disulfides and high-affinity metal-binding sites in a K+ channel pore | Q33915081 | ||
Modulation of fast synaptic transmission by presynaptic ligand-gated cation channels | Q33951865 | ||
Purines, purinergic receptors, and cancer | Q34034090 | ||
Comparison of quantitative calcium flux through NMDA, ATP, and ACh receptor channels | Q34128440 | ||
Dimensions of the narrow portion of a recombinant NMDA receptor channel | Q34128656 | ||
Side-chain accessibilities in the pore of a K+ channel probed by sulfhydryl-specific reagents after cysteine-scanning mutagenesis | Q34128675 | ||
Voltage-gated sodium channels at 60: structure, function and pathophysiology | Q34265707 | ||
New structural motif for ligand-gated ion channels defined by an ionotropic ATP receptor | Q34292603 | ||
Coexpression of P2X2 and P2X3 receptor subunits can account for ATP-gated currents in sensory neurons | Q34296118 | ||
Pore-opening mechanism in trimeric P2X receptor channels | Q34313783 | ||
Structural changes during ion channel gating | Q34323269 | ||
Ion conduction and selectivity in K(+) channels | Q34415730 | ||
Inhibition of nociceptors by TRPV1-mediated entry of impermeant sodium channel blockers | Q34698238 | ||
Permeation and selectivity in calcium channels. | Q35019750 | ||
Activation and regulation of purinergic P2X receptor channels | Q35122793 | ||
Preferential use of unobstructed lateral portals as the access route to the pore of human ATP-gated ion channels (P2X receptors). | Q35170819 | ||
Potassium channels | Q35589981 | ||
Ca2+ permeability of nicotinic acetylcholine receptors | Q35605952 | ||
Kinetics of P2X7 receptor-operated single channels currents | Q35781225 | ||
Allosteric modulation of Ca2+ flux in ligand-gated cation channel (P2X4) by actions on lateral portals | Q35801949 | ||
Agonist binding evokes extensive conformational changes in the extracellular domain of the ATP-gated human P2X1 receptor ion channel. | Q35849755 | ||
Ligand-gated ion channels: mechanisms underlying ion selectivity | Q35853354 | ||
Activation of neuronal P2X7 receptor-pannexin-1 mediates death of enteric neurons during colitis | Q35874789 | ||
Contribution of residues in second transmembrane domain of ASIC1a protein to ion selectivity | Q35921539 | ||
Cysteine substitution mutants give structural insight and identify ATP binding and activation sites at P2X receptors | Q36166147 | ||
P2X(7) receptor: Death or life? | Q36173773 | ||
Structural changes during HCN channel gating defined by high affinity metal bridges. | Q36209612 | ||
Acidic amino acids impart enhanced Ca2+ permeability and flux in two members of the ATP-gated P2X receptor family | Q36295984 | ||
Permeation of both cations and anions through a single class of ATP-activated ion channels in developing chick skeletal muscle | Q36410494 | ||
The P2X7 receptor channel pore dilates under physiological ion conditions | Q36946691 | ||
Influences of membrane mimetic environments on membrane protein structures. | Q37065765 | ||
Gating the pore of P2X receptor channels | Q37069023 | ||
A permeant regulating its permeation pore: inhibition of pannexin 1 channels by ATP. | Q37100017 | ||
Inter- and intrasubunit interactions between transmembrane helices in the open state of P2X receptor channels. | Q37240556 | ||
On the origin of ion selectivity in the Cys-loop receptor family | Q37591406 | ||
C terminus of the P2X7 receptor: treasure hunting. | Q37864114 | ||
P2X receptors in health and disease | Q37876543 | ||
P2X7 receptors: channels, pores and more | Q38042107 | ||
P2X receptors as drug targets | Q38068620 | ||
An introduction to molecular architecture and permeability of ion channels | Q38175912 | ||
Permeation properties of a P2X receptor in the green algae Ostreococcus tauri | Q38631509 | ||
Cysteine scanning mutagenesis (residues Glu52-Gly96) of the human P2X1 receptor for ATP: mapping agonist binding and channel gating | Q38673214 | ||
Is pannexin the pore associated with the P2X7 receptor? | Q39154721 | ||
Splice variants of the P2X7 receptor reveal differential agonist dependence and functional coupling with pannexin-1. | Q39354576 | ||
Pannexin 1 forms an anion-selective channel | Q39400579 | ||
P2X7 receptor-pannexin 1 hemichannel association: effect of extracellular calcium on membrane permeabilization. | Q39471255 | ||
P2X7 receptor activates multiple selective dye-permeation pathways in RAW 264.7 and human embryonic kidney 293 cells | Q39800258 | ||
A functional P2X7 splice variant with an alternative transmembrane domain 1 escapes gene inactivation in P2X7 knock-out mice. | Q39834758 | ||
Pharmacological properties of a pore induced by raising intracellular Ca2+. | Q39868233 | ||
Regulation of P2X2 receptors by the neuronal calcium sensor VILIP1. | Q39929126 | ||
ATP-induced P2X7-associated uptake of large molecules involves distinct mechanisms for cations and anions in macrophages. | Q39941391 | ||
Tunable calcium current through TRPV1 receptor channels | Q39942483 | ||
TRPV1 shows dynamic ionic selectivity during agonist stimulation. | Q39994761 | ||
On the role of the first transmembrane domain in cation permeability and flux of the ATP-gated P2X2 receptor | Q40042581 | ||
Ionic selectivity revisited: The role of kinetic and equilibrium processes in ion permeation through channels | Q40081383 | ||
N-methyl-D-glucamine and propidium dyes utilize different permeation pathways at rat P2X(7) receptors | Q40386629 | ||
Contribution of transmembrane regions to ATP-gated P2X2 channel permeability dynamics | Q40489469 | ||
Are second messengers crucial for opening the pore associated with P2X7 receptor? | Q40506943 | ||
Contribution of calcium ions to P2X channel responses. | Q40571393 | ||
Subunit Arrangement in P2X Receptors | Q40629382 | ||
Pharmacological and biophysical properties of the human P2X5 receptor | Q40645853 | ||
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 6 | |
P577 | publication date | 2014-01-01 | |
P1433 | published in | Frontiers in Cellular Neuroscience | Q2131509 |
P1476 | title | Principles and properties of ion flow in P2X receptors | |
P478 | volume | 8 |