ライフサイエンスコーパス: ion channel gating

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1 vation effects play only minor roles in GLIC ion channel gating.

2 be included in quantitative descriptions of ion channel gating.

3 individual dimer assemblies in activation of ion channel gating.

4 bunit that influence alcohol sensitivity and ion channel gating.

5 of the binding domain importantly influence ion channel gating.

6 mechanisms of blocker-induced modulation of ion channel gating.

7 provides a first view at high resolution of ion channel gating.

8 A subunit that regulates desensitization and ion channel gating.

9 drolyze ATP and in some manner regulate CFTR ion channel gating.

10 e applied to real-time structural studies of ion channel gating.

11 and how small molecules inhibit or activate ion channel gating.

12 the M3 helices that, in turn, are coupled to ion channel gating.

13 ntly affected by the inherent variability of ion channel gating.

14 biological channels, with possible roles in ion-channel gating.

15 alleable nature of free-energy landscapes of ion-channel gating.

16 pled 5-hydroxytryptamine2A receptors and the ion-channel gating 5-HT3 receptors, in cortical neuron t

17 er by subunit-subunit contacts implicated in ion channel gating and receptor assembly.

18 kinetic process of the type used to describe ion channel gating and synaptic transmission.

19 e, the structural mechanism of ATP-dependent ion channel gating and the architecture of the open ion

20 interactions govern protein trafficking and ion channel gating, and these are likely to be reflected

21 diverse as outer hair cell electromotility, ion channel gating, and transport.

22 ecular events controlling glutamate receptor ion channel gating are complex.

23 Two general categories of ion channel gating are defined by the initiating stimulu

24 binding cores is required for activation of ion channel gating by agonists.

25 Polypeptide neurotoxins alter ion channel gating by binding to extracellular receptor

26 Although molecular mechanisms of ion channel gating by chemical and voltage stimuli are u

27 Although molecular mechanisms of ion channel gating by chemical and voltage stimuli are u

28 nstrate a novel enzymatic mechanism by which ion channel gating can be modulated by activity.

29 crete-state Markov (DSM) model in describing ion channel gating current kinetics.

30 previous communication, the initial step in ion channel gating for voltage-gated channels was attrib

31 e biophysical basis of temperature-sensitive ion channel gating has been a tough nut to crack.

32 nderlying Gloeobacter violaceus ligand-gated ion channel gating in a membrane environment and report

33 Next, we simulate stochastic ion-channel gating in a calcium channel with multiple su

34 Ion channel gating is essential for cellular homeostasis

35 own to inhibit NMDA receptors by influencing ion-channel gating, its molecular site of action and the

36 The molecular mechanism of ion channel gating remains unclear.

37 Like other protein conformational changes, ion channel gating requires the protein to achieve a hig

38 It is not known whether ion channel gating takes place on a broad energy landsca

39 with a predominance of the GluN2A subunit in ion channel gating, the GluN2A subunit interacts more ex

40 nment, and highlight the power of describing ion channel gating through the lens of allosteric coupli

41 ion of how agonist binding is decoupled from ion channel gating upon receptor desensitization.

42 re of CNG channels and how it changes during ion channel gating, we introduced single cysteines along

43 80 it became clear that processes other than ion channel gating were also critical in generating elec

44 h the conformational changes associated with ion channel gating, will stimulate development of new ph

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