ライフサイエンスコーパス: nerve impulse

1 into a cell and converts this signal into a nerve impulse.

2 uperexcitability that follows a conditioning nerve impulse.

3 l for the rapid and efficient propagation of nerve impulses.

4 vation retards mitochondrial motility during nerve impulses.

5 zations adapted for generation of high-speed nerve impulses.

6 es such as the generation and propagation of nerve impulses.

7 ng axons, which prevents the transmission of nerve impulses.

8 channels are essential for the generation of nerve impulses.

9 ure is the basis for saltatory conduction of nerve impulses.

10 s that are essential for the transmission of nerve impulses.

11 and/or such synthesis may be upregulated by nerve impulses.

12 cells, where it mediates the propagation of nerve impulses.

13 opsin proteins translate light signals into nerve impulses.

14 myelin sheaths to regulate the conduction of nerve impulses across the brain, hence critically impact

15 At normal frequencies of nerve impulse activity in vivo, this effect is likely to

16 Nerve impulse activity produces both developmental and a

17 e transporter, is responsive additionally to nerve impulse activity.

18 either through anterograde transport and/or nerve impulse activity.

19 , synaptic transmission, and transmission of nerve impulses, all of which are biologically meaningful

20 Ranvier and in the rapid propagation of the nerve impulses along myelinated axons.

21 ), which can rapidly inactivate to shape the nerve impulse and contribute to synaptic facilitation an

22 transmitter ACh in response to an individual nerve impulse and with a brief latency characteristic of

23 s regulate cell division, circadian rhythms, nerve impulses and chemotaxis, and guide the development

24 ransmembrane proteins that are essential for nerve impulses and regulate ion flow across cell membran

25 salivary secretion of SIgA is upregulated by nerve impulses and that sympathetic nerves induce a grea

26 avours the ectopic generation of spontaneous nerve impulses and their ephaptic conduction to adjacent

27 rucial for the generation and propagation of nerve impulses, and as such are widely targeted by toxin

28 Pathways connected to the procession of the nerve impulse are major mechanisms involved in the devel

29 initial segment and nodes of Ranvier, where nerve impulses are generated and propagated, a high dens

30 Nerve impulses are propagated at nodes of Ranvier in the

31 h cell membranes, producing, for example the nerve impulse, are in many cases composed of four domain

32 ng with the presynaptic membrane (PM) when a nerve impulse arrives.

33 We compared the efficacy of nerve impulse blockade by lidocaine, cocaine, cocaethyle

34 ince it not only restores fast conduction of nerve impulses but also maintains axon integrity.

35 e, detection, processing, and propagation of nerve impulses by neurons; contraction and relaxation by

36 se experiments, a single temporally isolated nerve impulse caused the synchronous opening of ATP-gate

37 cytes around axons in the CNS, enables rapid nerve impulse conduction and sustains neuronal health.

38 Rapid nerve impulse conduction depends on specialized membrane

39 tric oxide production, nerve blood flow, and nerve impulse conduction in diabetes.

40 Rapid nerve impulse conduction in myelinated axons requires th

41 Schwann cells ensure efficient nerve impulse conduction in the peripheral nervous syste

42 odium channels (Nav) and thus underpin rapid nerve impulse conduction in the vertebrate nervous syste

43 mplexes at nodes of Ranvier to promote rapid nerve impulse conduction in vertebrate nerves.

44 Nerve impulse conduction is greatly increased by myelin,

45 ough the injury in all treated animals while nerve impulse conduction remained absent in all sham-tre

46 to the cord immediately reversed the loss of nerve impulse conduction through the injury in all treat

47 on axonal mitochondria to provide energy for nerve impulse conduction under homeostatic conditions.

48 lease of a small molecule drug that promotes nerve impulse conduction.

49 have been proposed to affect the velocity of nerve impulse conduction; however, direct evidence is la

50 Nerve-impulse conduction is greatly speeded by myelin sh

51 ediates the transduction of sound waves into nerve impulses, depends on the endocochlear potential an

52 yield a highly flexible and energy-efficient nerve impulse encoder.

53 Synchronous ACh release evoked by nerve impulses (end-plate potentials, EPPs) follow a sim

54 re based on extensions of the Hodgkin-Huxley nerve impulse equations.

55 thesis was assessed in rats treated with the nerve impulse flow inhibitor gamma-butyrolactone (GBL).

56 ificantly reduced, whereas capsaicin-induced nerve impulses in the skin-nerve preparation increased i

57 Rapid conduction of nerve impulses is critical in life and relies on action

58 detects and transduces infrared signals into nerve impulses is not known.

59 d vertebrates, enabled rapid transmission of nerve impulses, more complex brains, and greater morphol

60 when vesicle fusion is triggered by a single nerve impulse or short burst.

61 ndings demonstrate, for the first time, that nerve impulses or chemical stimulation promote Ca2+ entr

62 al' loci where the myelin terminates and the nerve impulse propagates along the axon by 'saltatory' c

63 e raft-like membrane microdomains, 2) impede nerve impulse propagation by lowering the lipid phase tr

64 rent therapies for neuropathic pain modulate nerve impulse propagation or synaptic transmission; thes

65 We have also observed that, in response to a nerve impulse, synapses with low release probability pri

66 y inner hair cells (IHCs) encode sounds into nerve impulses through fast and indefatigable Ca(2+)-dep

67 Appropriate transmission of nerve impulses through glutamatergic synapses is require

68 leases Ca(2+) from intracellular stores upon nerve impulse to trigger skeletal muscle contraction.

69 inputs within their dendrites and propagate nerve impulses to distant targets through a single axon.

70 Drosophila was attributable to a failure of nerve impulses to trigger transmitter release.

71 lved in many physiological processes such as nerve impulse transmission, the heartbeat, and muscle co

72 sponse to axonal growth, thus ensuring rapid nerve impulse transmission.

73 e is sensed by cutaneous thermoreceptors and nerve impulses transmitted to the hypothalamus, which ge

74 myelin sheath surrounding axons ensures that nerve impulses travel quickly and efficiently, allowing

75 vesicle is left on the cell surface until a nerve impulse triggers its retrieval.

76 ntent (the number of ACh quanta released per nerve impulse) was only approximately 50% of that in con

77 Nerve impulses were recorded from the dorsal rootlets of

78 1-S4 voltage-sensing domains responsible for nerve impulses, where interactions with the lipid bilaye

79 anslate acoustic stimuli into 'phase-locked' nerve impulses with frequencies of up to at least 1 kHz.

80 th gene networks involved in transmission of nerve impulse, Wnt, and Notch signaling.