| scholarly article | Q13442814 |
| P2093 | author name string | Morris CE | |
| Juranka P | |||
| Tabarean IV | |||
| P2860 | cites work | Improved patch-clamp techniques for high-resolution current recording from cells and cell-free membrane patches | Q22337395 |
| A mammalian two pore domain mechano-gated S-like K+ channel | Q24533276 | ||
| Primary structure and functional expression of the beta 1 subunit of the rat brain sodium channel | Q28186859 | ||
| Interaction of Muscle and Brain Sodium Channels with Multiple Members of the Syntrophin Family of Dystrophin-Associated Proteins | Q28257712 | ||
| Functional messenger RNAs are produced by SP6in vitrotranscription of cloned cDNAs | Q29620476 | ||
| Voltage-dependent Membrane Displacements Measured by Atomic Force Microscopy | Q30494869 | ||
| Molecular mechanism for an inherited cardiac arrhythmia | Q33173678 | ||
| Membrane-pipette interactions underlie delayed voltage activation of mechanosensitive channels in Xenopus oocytes | Q34170642 | ||
| The sodium channel from rat brain. Purification and subunit composition. | Q34255318 | ||
| The cloning and expression of a sodium channel beta 1-subunit cDNA from human brain | Q34356775 | ||
| Patch clamp measurements on Xenopus laevis oocytes: currents through endogenous channels and implanted acetylcholine receptor and sodium channels | Q34390940 | ||
| Membrane Phospholipid Control of Nucleotide Sensitivity of K ATP Channels | Q34478704 | ||
| β-Spectrin Is Colocalized with Both Voltage-gated Sodium Channels and AnkyrinG at the Adult Rat Neuromuscular Junction | Q36274914 | ||
| A rat brain Na+ channel alpha subunit with novel gating properties | Q36385916 | ||
| Gating of Na channels. Inactivation modifiers discriminate among models | Q36409548 | ||
| Inactivation of cloned Na channels expressed in Xenopus oocytes | Q36434658 | ||
| Specificity for block by saxitoxin and divalent cations at a residue which determines sensitivity of sodium channel subtypes to guanidinium toxins | Q36435495 | ||
| Na+ currents that fail to inactivate | Q40386018 | ||
| Intracellular signalling: more jobs for G beta gamma | Q41135159 | ||
| Induced membrane hypo/hyper-mechanosensitivity: a limitation of patch-clamp recording | Q41388106 | ||
| Functional expression and properties of the human skeletal muscle sodium channel | Q41470649 | ||
| Mechanosensitive ion channels in nonspecialized cells | Q41748707 | ||
| Sodium channel gating in clonal pituitary cells. The inactivation step is not voltage dependent | Q41935892 | ||
| Evidence for the involvement of more than one mRNA species in controlling the inactivation process of rat and rabbit brain Na channels expressed in Xenopus oocytes | Q41991544 | ||
| Functional analysis of the rat I sodium channel in xenopus oocytes. | Q42545515 | ||
| Mechanosensitive ion channels of E. coli activated by amphipaths. | Q45044862 | ||
| Unfolded conformations of α-lytic protease are more stable than its native state | Q46488206 | ||
| Kinetic mode switch of rat brain IIA Na channels in Xenopus oocytes excised macropatches | Q48096151 | ||
| Modification of the Na+ current conducted by the rat skeletal muscle ? subunit by coexpression with a human brain ? subunit | Q48317507 | ||
| Opposite modulation of NMDA receptors by lysophospholipids and arachidonic acid: common features with mechanosensitivity | Q48355564 | ||
| Multiple gating modes and the effect of modulating factors on the μI sodium channel | Q48636805 | ||
| Persistent Sodium Currents through Brain Sodium Channels Induced by G Protein βγ Subunits | Q48643992 | ||
| Mechanosensitivity of the cardiac muscarinic potassium channel. A novel property conferred by Kir3.4 subunit | Q48947383 | ||
| Activation of G protein-coupled inward rectifier K+ channels in brain neurons requires association of G protein beta gamma subunits with cell membrane | Q48961403 | ||
| Modulation of cardiac Na+ channel expression in Xenopus oocytes by beta 1 subunits | Q49035684 | ||
| Fast and slow gating of sodium channels encoded by a single mRNA. | Q49121719 | ||
| A molecular basis for gating mode transitions in human skeletal muscle Na+ channels | Q49138808 | ||
| μl Na+ channels expressed transiently in human embryonic kidney cells: Biochemical and biophysical properties | Q50793751 | ||
| Voltage dependencies of the fast and slow gating modes of RIIA sodium channels | Q54027876 | ||
| The voltage-sensitive sodium channel from rabbit skeletal muscle. Chemical characterization of subunits | Q68985622 | ||
| Sodium channel inactivation is impaired in equine hyperkalemic periodic paralysis | Q71923752 | ||
| Calcium channel currents recorded from isolated myocytes of rat basilar artery are stretch sensitive | Q72274872 | ||
| Mechanosensitivity of NMDA receptors in cultured mouse central neurons | Q72693972 | ||
| Activation of mechanosensitive currents in traumatized membrane | Q78020079 | ||
| Are axoplasmic microtubules necessary for membrane excitation? | Q93597562 | ||
| P433 | issue | 2 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 758-774 | |
| P577 | publication date | 1999-08-01 | |
| P1433 | published in | Biophysical Journal | Q2032955 |
| P1476 | title | Membrane stretch affects gating modes of a skeletal muscle sodium channel | |
| P478 | volume | 77 |
| Q35885083 | Altered calcium signaling following traumatic brain injury |
| Q36233111 | Altered sodium channel-protein associations in critical illness myopathy |
| Q34280899 | Biophysical implications of lipid bilayer rheometry for mechanosensitive channels. |
| Q50067423 | Calculating the Consequences of Left-Shifted Nav Channel Activity in Sick Excitable Cells |
| Q28601309 | Cardiac Mechano-Gated Ion Channels and Arrhythmias. |
| Q48651678 | Coupled left-shift of Nav channels: modeling the Na⁺-loading and dysfunctional excitability of damaged axons. |
| Q48046521 | Dynamical study of Νaν channel excitability under mechanical stress. |
| Q41451579 | Left-shifted nav channels in injured bilayer: primary targets for neuroprotective nav antagonists? |
| Q48633275 | Lipid stress at play: mechanosensitivity of voltage-gated channels. |
| Q36893327 | Mechanisms of conduction slowing during myocardial stretch by ventricular volume loading in the rabbit |
| Q36068909 | Mechanistic basis for low threshold mechanosensitivity in voltage-dependent K+ channels |
| Q26866573 | Mechanosensitive gating of Kv channels |
| Q24683241 | Mechanosensitive ion channels and the peptide inhibitor GsMTx-4: history, properties, mechanisms and pharmacology |
| Q42363278 | Mechanosensitive ion channels: an evolutionary and scientific tour de force in mechanobiology. |
| Q24537561 | Mechanosensitivity of N-type calcium channel currents |
| Q42680525 | Mechanosensitivity of Nav1.5, a voltage-sensitive sodium channel |
| Q42111305 | Membrane permeable local anesthetics modulate NaV1.5 mechanosensitivity |
| Q34178040 | Membrane stretch accelerates activation and slow inactivation in Shaker channels with S3-S4 linker deletions |
| Q36412511 | Membrane tension accelerates rate-limiting voltage-dependent activation and slow inactivation steps in a Shaker channel |
| Q39816346 | Membrane trauma and Na+ leak from Nav1.6 channels |
| Q27863796 | Modal gating of human CaV2.1 (P/Q-type) calcium channels: I. The slow and the fast gating modes and their modulation by beta subunits |
| Q35878685 | Nav channel mechanosensitivity: activation and inactivation accelerate reversibly with stretch |
| Q37297998 | Role of Ca(2+) in injury-induced changes in sodium current in rat skeletal muscle |
| Q28483741 | Spontaneous excitation patterns computed for axons with injury-like impairments of sodium channels and Na/K pumps |
| Q33423236 | Stretch-activation and stretch-inactivation of Shaker-IR, a voltage-gated K+ channel |
| Q53894639 | Stretch-sensitive switching among different channel sublevels of an endothelial cation channel |
| Q33516691 | Structure and hydration of membranes embedded with voltage-sensing domains |
| Q34907427 | TTX, cations and spider venom modify avian muscle tone in vitro. |
| Q83227409 | The mechanosensitive ion channel TRAAK is localized to the mammalian node of Ranvier |
| Q28204542 | Traumatic axonal injury induces calcium influx modulated by tetrodotoxin-sensitive sodium channels |
| Q37039516 | Voltage-dependent K+ channel gating and voltage sensor toxin sensitivity depend on the mechanical state of the lipid membrane |
| Q42215065 | Voltage-gated channel mechanosensitivity: fact or friction? |
| Q36749938 | Voltage-induced membrane displacement in patch pipettes activates mechanosensitive channels |
| Q40710811 | alpha(1C) (Ca(V)1.2) L-type calcium channel mediates mechanosensitive calcium regulation |
| Q52320511 | β1 subunit stabilises sodium channel Nav1.7 against mechanical stress. |
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