ライフサイエンスコーパス: mechanoelectrical

1 a-catenin, are indispensable for maintaining mechanoelectrical coupling in the heart.

2 i of the cardiomyocyte, thus ensuring proper mechanoelectrical coupling throughout the myocardium.

3 I(Ks), may account in part for this form of mechanoelectrical coupling.

4 These data suggest a novel mechanoelectrical feedback mechanism for inducing physio

5 d by membrane stretch, possibly serving as a mechanoelectrical feedback pathway.

6 To test the hypothesis that mechanoelectrical feedback triggered by regional strain

7 Dynamic mechanoelectrical feedback was modeled as spatially and

8 These data further underscore a likely mechanoelectrical interaction as an important part of th

9 TRP channels and other proteins involved in mechanoelectrical signaling.

10 The molecular composition of this mechanoelectrical transducer (MET) channel is not yet kn

11 In lower vertebrates, when the mechanoelectrical transducer (MET) channels are opened b

12 Although gating of mechanoelectrical transducer (MET) channels has been suc

13 Although the nature of these mechanoelectrical transducer (MET) channels is still unc

14 n of the mechanical input to ensure that the mechanoelectrical transducer (MET) channels operate in t

15 Here we describe measurements of mechanoelectrical transducer currents in outer hair cell

16 Mechanoelectrical transducer currents in turtle auditory

17 Recordings of mechanoelectrical transducer currents were combined with

18 aptation properties, but not the size of the mechanoelectrical transducer currents.

19 oduce only atomic-scale displacements in the mechanoelectrical transducer, yet thermal noise causes f

20 s suggest that Gd(3+)-sensitive SACs are the mechanoelectrical transducers in baroreceptors.

21 eurites in the explanted frog sacculus, with mechanoelectrical transduction (MET) blocked.

22 n hypothesized to play a role in the elusive mechanoelectrical transduction (MET) channel in inner ea

23 EMENT How forces are relayed to the auditory mechanoelectrical transduction (MET) channel remains unk

24 into excitatory membrane currents carried by mechanoelectrical transduction (MeT) channels.

25 organized structure plays a critical role in mechanoelectrical transduction and amplification.

26 n channels that maximizes the sensitivity of mechanoelectrical transduction and enhances the hair bun

27 ompatible strategies for the optimization of mechanoelectrical transduction and of an active process

28 Moreover, the hair cells are capable of mechanoelectrical transduction and show basolateral cond

29 The molecular mechanisms underlying mechanoelectrical transduction and the receptors that de

30 n polymerization as well as operation of the mechanoelectrical transduction apparatus.

31 specific phenotype suggested a defect in the mechanoelectrical transduction apparatus.

32 Mechanoelectrical transduction by hair cells commences w

33 the stereocilia and are thought to gate the mechanoelectrical transduction channel.

34 Direct gating of mechanoelectrical transduction channels by mechanical fo

35 gentamicin demonstrated the crucial role of mechanoelectrical transduction channels in the rapid res

36 Mechanoelectrical transduction channels of hair cells al

37 The mechanoelectrical transduction channels of hair cells, b

38 n motor, Ca2+ entering a hair bundle through mechanoelectrical transduction channels regulates the se

39 ter HC region, formed stereocilia, contained mechanoelectrical transduction channels, and survived fo

40 amentous connectors implicated in gating the mechanoelectrical transduction channels, is the transmem

41 at form the hair bundle tip links gating the mechanoelectrical transduction channels.

42 A hair cell's tip links are thought to gate mechanoelectrical transduction channels.

43 ytoskeleton and with other components of the mechanoelectrical transduction complex.

44 ectric relations whereas the OHC hair-bundle mechanoelectrical transduction current is modeled as a n

45 ngly, the endocochlear potential that drives mechanoelectrical transduction currents in outer hair ce

46 3b(-/-) cochlear hair bundles display robust mechanoelectrical transduction currents with normal kine

47 Mechanoelectrical transduction in the inner ear is a bio

48 a virtual hair cell that simulates hair cell mechanoelectrical transduction in the turtle utricle.

49 idence suggests that the adaptation motor of mechanoelectrical transduction in vertebrate hair cells

50 that myosin Ibeta mediates the adaptation of mechanoelectrical transduction in vestibular hair cells.

51 One molecule that might participate in mechanoelectrical transduction is cadherin 23 (CDH23), a

52 Inner ear hair-cell mechanoelectrical transduction is mediated by a largely

53 Mechanoelectrical transduction of acoustic signals is th

54 te that there are separate, but overlapping, mechanoelectrical transduction pathways in chondrocytes.

55 hese characteristics emerge naturally if the mechanoelectrical transduction process operates near a d

56 cells of the inner ear, are essential to the mechanoelectrical transduction process underlying hearin

57 antenna of inner ear hair cells, and in the mechanoelectrical transduction process.

58 quivalence of tip links with gating springs, mechanoelectrical transduction returns over the same tim

59 Mechanoelectrical transduction takes place close to the

60 g two mutant zebrafish lines with defects in mechanoelectrical transduction, and by blocking transduc

61 s scaling contradicts the canonical model of mechanoelectrical transduction, but the results can be e

62 Ca2+ is thought to be required in mechanoelectrical transduction, for exposure of hair bun

63 To ensure optimal sensitivity for mechanoelectrical transduction, hair cells adapt to prol

64 Mechanoelectrical transduction, the conversion of mechan

65 tle is known about the proteins that mediate mechanoelectrical transduction, the process by which aco

66 mics may arise at multiple stages, including mechanoelectrical transduction, voltage-gated channels i

67 Because cells so treated lost mechanoelectrical transduction, we attribute the reducti

68 a correlate of this behavior at the level of mechanoelectrical transduction, we examined the response

69 e hair bundle, the organelle responsible for mechanoelectrical transduction, we localized and quantif

70 mine rapid mechanical events associated with mechanoelectrical transduction, we stimulated individual

71 ate it as the mediator of slow adaptation of mechanoelectrical transduction, which is required for ba

72 identify the molecular machinery underlying mechanoelectrical transduction, Zhao et al. (2014) in th

73 ate the role of the corresponding protein in mechanoelectrical transduction.

74 an essential role in adaptation of hair-cell mechanoelectrical transduction.

75 , ranging from whole body sodium handling to mechanoelectrical transduction.

76 bundle serves to enhance the sensitivity of mechanoelectrical transduction.

77 The mechanoelectrical-transduction channel of the hair cell

78 ich amplification stems from the activity of mechanoelectrical-transduction channels.

79 ate the tectorial membrane's key role in the mechanoelectrical transformation by the inner ear, direc