ライフサイエンスコーパス: electrical potential

1 se to mechanical stretching or the change of electrical potential.

2 tained in the presence and absence of the TM electrical potential.

3 lasmic pH, turgor pressure and transmembrane electrical potential.

4 is but distinctly requires an inner-membrane electrical potential.

5 y for the ion concentration and velocity and electrical potential.

6 ties, such as wettability, in response to an electrical potential.

7 can be used as a tool to probe distance and electrical potential.

8 onally in gradients of specific chemicals or electrical potential.

9 olecules can be pulled into the cavity by an electrical potential.

10 yer in the presence of various transmembrane electrical potentials.

11 which prevent the formation of transmembrane electrical potentials.

12 ged substrates moving under the influence of electrical potentials.

13 By applying small electrical potentials (2 V/cm) to disordered solutions o

14 The distribution of electrical potential across both planar and porous devic

15 itochondrial swelling or substantial loss of electrical potential across the inner membrane, and was

16 and prevent the maintenance of a sufficient electrical potential across the inner membrane, which ex

17 force exerted on a targeting sequence by the electrical potential across the inner mitochondrial memb

18 tion of CH(3)NH(3)(+) ion in response to the electrical potential across the membrane and that the ra

19 The detection of electrical potentials across lipid bilayers by specializ

20 The metal layer sets a constant electrical potential along the microfluidic channel for

21 nabling characterization of the influence of electrical potential and a direct comparison of the infl

22 , the proton-motive force, is composed of an electrical potential and a pH gradient.

23 Measurements of electrical potential and current were made across membra

24 iodicity similar to oscillations in membrane electrical potential and insulin secretion.

25 Heat transfer, electrical potential and light energy are common ways to

26 , including the distribution patterns of the electrical potential and pH of the hydrogel.

27 metabolic parameters including mitochondrial electrical potential and pH, reactive oxygen species pro

28 membrane in plant cells is energized with an electrical potential and proton gradient generated throu

29 Detection of the variations in electrical potentials and especially their responses to

30 ic channels allowed for easy coupling of the electrical potentials and for directed transport of the

31 ern and Donnan-plus-binding) used to compute electrical potentials and ion concentrations in CWs and

32 -Chapman-Stern model was used to compute the electrical potentials and the activities of ions at the

33 gy as a function of compartment-specific pH, electrical potential, and ionic strength.

34 atures of the peptide affected by changes in electrical potential are the center of mass depth, the s

35 hemical potential of H2 replaces an external electrical potential as the thermodynamic driving force.

36 d uptake increases at more positive internal electrical potential, as expected for the two-proton mod

37 By applying proper electrical potential at the bottom gate under polySi NW

38 here the negative charges serve to alter the electrical potential at the inner mouth and, thus, to in

39 hat IP-1 makes pores in the presence of high electrical potential at the membrane, such as those foun

40 osensory primary afferents are responsive to electrical potentials created during the animal's own ve

41 The surface modification allows a change in electrical potential, created by the interaction, to be

42 200-fold slower than LF(N), depending on the electrical potential (Deltapsi) and chemical potential (

43 ing a fluorescent probe of the transmembrane electrical potential (DeltaPsi), Mrp Na(+)/H(+) antiport

44 ad, pre-SufI transport requires at least two electrical potential (Deltapsi)-dependent steps that dif

45 a+(K+)/H+ antiport for both proteins; and an electrical potential-dependent K+ leak mode for TetK and

46 li-controlled multifunctionalities and angle/electrical-potential-dependent luminescence.

47 e urinary bladder of the rabbit maintains an electrical potential difference across its wall as a res

48 y recording high-frequency power (76-200 Hz) electrical potentials directly from these regions in thr

49 and close in response to changes in membrane electrical potential due to the motion of their voltage-

50 generated by highly localized changes in the electrical potential during DNA translocation, and that

51 records 224 body-surface electrocardiograms; electrical potentials, electrograms and isochrones are t

52 Transmembrane electrical potential experiments using a Streptococcus r

53 Q are proportional to the magnetic field and electrical potential far away from the slice.

54 The stability of the electrical potential for the electrodes was examined by

55 Exoelectrogens added an electrical potential from acetate oxidation and reduced

56 Here we show that electrical potentials from the ventral temporal cortical

57 1) It is possible to cannulate and to record electrical potentials from the VOM.

58 1.8x4.6 cm was used to simultaneously record electrical potentials generated by the heart and locate

59 It is significant even when the electrical potential gradient becomes as low as 100 v/m.

60 explains the nonlinear dependence of flux on electrical potential gradient, its hyperbolic dependence

61 fields, and may be influenced by endogenous electrical potential gradients as well.

62 nd outside, external ACh concentrations, and electrical potential gradients on ACh transport by vesic

63 ectrical power via the enzyme-induced pH and electrical potential gradients, when the hydrogel comes

64 Application of an electrical potential had a significant impact on the det

65 lasmic [Na(+)], [K(+)], pH and transmembrane electrical potential in the 'poly extremophile'Natranaer

66 Generation of a strong electrical potential in the cochlea is uniquely mammalia

67 echanical model of the organ of Corti and to electrical potentials in the cochlear ducts and outer ha

68 ion of ions in a boundary layer in which the electrical potential interaction with the membrane surfa

69 well, a device in the membrane that converts electrical potential into chemical potential.

70 When an electrical potential is applied to human tissue, the pat

71 An electrical potential is applied to the plant and its nat

72 in electric field to be established when an electrical potential is applied.

73 y brainstem response (ABR), a scalp-recorded electrical potential, is known for its ability to captur

74 The approach employs electrical potentials (<1 V) that are sufficiently small

75 In an electrical potential model that rationalizes this observ

76 nds to intracellular sites and increases the electrical potential near the voltage sensors.

77 nd the metal ion significantly decreases the electrical potential needed to drive the chemical reduct

78 by significantly reduce the required applied electrical potentials needed to achieve 100's V/cm elect

79 apses in mutants affecting the generation of electrical potentials (norpA, trp;trpl), neurotransmitte

80 bility to assess an element-specific surface electrical potential of a device under operation based o

81 limb stump and is associated with a fall in electrical potential of about 50 mV/mm near the stump's

82 )) ions across cell membranes to control the electrical potential of muscle cells, transfer electroly

83 nd DNA SAMs are studied as a function of the electrical potential of the interface revealing how the

84 The stability of the electrical potential of the new solid-contact electrodes

85 by a bioelectrochemical system (BES) and the electrical potentials of the BES reactors were also moni

86 t strain to accumulate a large transmembrane electrical potential on successive flashes.

87 t, under the influence of chemical reagents, electrical potential, or visible light, undergoes unidir

88 ct for multiple ions their concentration and electrical potential profiles in electro-chemically comp

89 ty in chip and instrument design by relaxing electrical potential requirements and expanding the poss

90 kewise, applying outwardly oriented membrane electrical potential resulted in Cd2+ efflux, demonstrat

91 The application of low electrical potentials resulted in the production of low

92 in, and beta-cryptoxanthin) were detected at electrical potential settings between 220 and 520 mV.

93 their response to variations in the applied electrical potential, the duration for which the potenti

94 racted from an aqueous sample by applying an electrical potential through a thin supported liquid mem

95 ESI is accomplished by applying an electrical potential through an easily prepared porous j

96 ins that directly couple changes in membrane electrical potential to inositol lipid phosphatase activ

97 s were measured as a function of the applied electrical potential to the membrane surface.

98 increased contribution of the transmembrane electrical potential to the proton motive force across t

99 erial adhesion can be controlled by applying electrical potentials to surfaces incorporating well-spa

100 on of mitochondrial outer membranes, whereas electrical potential was also required for fusion of inn

101 usually provided by heat, light, pressure or electrical potential, which act either by changing the d

102 the resonance of a hair cell's transmembrane electrical potential, whose frequency correlates with th

103 and invasive or indirectly coupled to neural electrical potential with low temporal resolution.

104 centrations and the Poisson equation for the electrical potential within the junction is developed.

105 on, the tethered DNAs were used to probe the electrical potential within the protein pore.