ライフサイエンスコーパス: water movement

1 lopment are dependent on tight regulation of water movement.

2 cell-containing neuromasts that detect local water movement.

3 pret as the surface expression of subglacial water movement.

4 r role in trans-cellular and transepithelial water movement.

5 helial cells is the rate-limiting barrier to water movement.

6 t this domain to facilitate transbasolateral water movement.

7 , shows that local osmosis best accounts for water movement.

8 ffects both the temperature distribution and water movement.

9 ations, enabling bi-directional detection of water movement.

10 or the animal's ability to sense directional water movements.

11 all living cells, coordination of solute and water movement across cell membranes is of critical impo

12 proteins that facilitate osmotically driven water movement across cell plasma membranes.

13 and to determine the contribution of AQP1 to water movement across cultured RPE cells isolated from h

14 ovide a major pathway for osmotically driven water movement across epithelial and microvascular barri

15 In functional assays, AQP1 facilitated water movement across RPE monolayers in an expression-de

16 Water movement across the airway epithelium is important

17 Interestingly, urea was also able to drive water movement across the AQP1-independent pathway.

18 y described aquaporin that facilitates rapid water movement across the cytoplasmic membrane is repres

19 ese results provide functional evidence that water movement across the distal airway epithelium is me

20 ;1 is a key participant in the regulation of water movement across the membranes of cells expressing

21 least in part from strong control of radial water movement across the vein bundle sheath.

22 + absorption and Cl- secretion, which drives water movement across these tissues.

23 channel proteins are important pathways for water movements across cell membranes, including those i

24 er-conducting channels that facilitate rapid water movements across the plasma membrane of Escherichi

25 sport is currently a favored explanation for water movement against an osmotic gradient.

26 directly whether significant transjunctional water movement also occurs.

27 Coordination of water movement among plant organs is important for under

28 ted community states is governed by rates of water movement and consumer pressure.

29 The role of these channels in water movement and the subsequent volume changes in red

30 n of multiple traits related to carbon gain, water movement and water loss.

31 e vertebrates enables the detection of local water movement and weak bioelectric fields.

32 Trigeminal afferents respond to water movements and project tentacle information to the

33 sturbing a stratigraphic barrier to vertical water movement, and indirectly by increasing mineral wea

34 location of this aquaporin and the resulting water movement are responsible for the volume reversal n

35 Anticipating that transmembrane water movements are important during the life cycle of A

36 y soluble rock in which there is appreciable water movement arising from a combination of high rock s

37 transient increase in terminal volume due to water movement associated with Na(+)-influx.

38 , vacancy, and redevelopment, each impacting water movement at the land surface by altering soil hydr

39 Their porous construction facilitates water movement between conduits while limiting the sprea

40 ction (through restriction of transcutaneous water movement) could regulate the formation of the epid

41 me- and space-resolved evolution of ions and water movement, crystal structure and catalyst variation

42 evolution was common among traits related to water movement efficiency and hydraulic safety in both l

43 ransport is regulated by ion transport, with water movement following passively.

44 hus, aquaporins are important for regulating water movement for roots of O. acanthocarpa.

45 on conductance mechanism and its relation to water movement for the NavMs channel pore and to make re

46 uptake model to investigate the effect that water movement has on nutrient uptake.

47 The low rates of vertical water movement in bogs generally combined with the size

48 he hypothesis that secretin promotes osmotic water movement in cholangiocytes by inducing the exocyti

49 The sensing system detects uneven water movement in dry sand and enables millimeter-scale

50 sole factor responsible for the blockage of water movement in grapevines (Vitis vinifera) affected b

51 Net water movement in response to an osmotic gradient change

52 ron tomography provides new insights into 3D water movement in soil and roots.

53 sine monophosphate-dependent (cGMP) salt and water movement in the intestine.

54 features of the spatio-temporal dynamics of water movement in the soil-plant system.

55 Shrews attacked brief water movements, indicating motion is an important cue u

56 Cation uptake along with anion and water movement induces swelling if not compensated by ot

57 channel in astrocytes, is involved in brain water movement, inflammation, and neuroexcitation.

58 Once captured, prey are carried by water movement inside the oral cavity to a second set of

59 at osmotically driven and agonist-stimulated water movement into (secretion) and out of (absorption)

60 water channel aquaporin-4 (AQP4) facilitates water movement into and out of brain parenchyma.

61 eduction of luminal areas as a reflection of water movement into and out of IBDUs prepared from liver

62 ses, glia limitans and ependyma, facilitates water movement into and out of the brain, accelerates as

63 pace with cell impermeant molecules prevents water movement into the cell by passive biophysical osmo

64 junctiva--the relevant parameters describing water movement into the hyperosmolar tear film in vivo--

65 en LT and ST are both present, they increase water movement into the intestinal lumen over and above

66 rogenic chloride secretion, with concomitant water movement into the intestinal lumen.

67 e; furthermore, we hypothesize that salt and water movement into vesicles may regulate vesicle volume

68 vation in lipid membranes is coupled to bulk water movements into the protein.

69 t convert mechanical stimuli, in the form of water movement, into electrical signals.

70 s of genes induced by hypobaria confirm that water movement is a paramount issue at low atmospheric p

71 Thus, AQP4-mediated transcellular water movement is crucial for fluid clearance in vasogen

72 Vacuolar water movement is largely controlled by membrane channel

73 nt volume marker, fluorescein sulfonate; net water movement (J(v)) and osmotic water permeability (P(

74 Traits associated with leaf water movement, K(leaf) and K(ox) , increased with tempe

75 filing revealed that cuticle composition and water movement may underlie the effect of melatonin in d

76 bute to the spatial and temporal dynamics of water movement observed during desiccation and resurrect

77 span and the dispersive effects of constant water movements on all spatial scales, however there are

78 Thus, soil water movement potential of NTMI2 was lowest during whea

79 models are beginning to simulate small-scale water movement processes at large scales.

80 ylem vessel integrity during periods of high water movement requires the expression of specialized, d

81 f tumor infiltration, by characterizing free water movement restriction in the peritumoral region usi

82 e PSP that was produced in a motor neuron by water-movement stimulation of the siphon, which does not

83 The short latency of attacks to water movements suggests shrews may use a flush-pursuit

84 esses as diverse as transepithelial salt and water movement, taste perception, volume regulation, noc

85 low measurements provide a direct measure of water movement through plant stems, but, to our knowledg

86 d by the imposition of Deltapi suggests that water movement through the channel is also an important

87 the C(4) species P. antidotale favours lower water movement through the leaf and stomata that provide

88 d by factors such as GAG content that affect water movement through the tissue.

89 ps that regulate ion flux and thus influence water movement through this cell layer.

90 s, driven by spatial and temporal changes in water movement, underscore the importance of accounting

91 and aquatic-stage amphibians to detect local water movement via mechanosensory hair cells in neuromas

92 Transscleral water movement was measured using surgically removed scl

93 tic gradients were established across IBDUs, water movement was observed from bath to lumen (i.e., se

94 Water movement was time-resolved by monitoring the magne

95 Hair cells detect sound, head position or water movements when their mechanosensory hair bundle is

96 system along the soil-plant-air continuum of water movement, with plant transpiration driving water f