ライフサイエンスコーパス: osmoregulation

1 tarvation), and WNK4 (a molecular switch for osmoregulation).

2 onfirmed the importance of these channels in osmoregulation.

3 to play major roles in water metabolism and osmoregulation.

4 tosis, secretion of lysosomal hydrolases and osmoregulation.

5 phenotype may reflect a role of the CANs in osmoregulation.

6 ng plant-microbe interactions in addition to osmoregulation.

7 epresents an ancient eukaryotic mechanism of osmoregulation.

8 zation of membranes, enzyme functioning, and osmoregulation.

9 +) -independent and dependent mechanisms for osmoregulation.

10 lism or are crucial for infant nutrition and osmoregulation.

11 assium and osmolyte transporters involved in osmoregulation.

12 n metabolic wastes excretion and body fluids osmoregulation.

13 e kidney collecting duct and is important to osmoregulation.

14 actor of activated T-cell5 [NFAT5])-mediated osmoregulation.

15 eu during IDD does not interfere with TonEBP osmoregulation.

16 neurons in a manner that can affect systemic osmoregulation.

17 i, PDEC2 was shown to be required for normal osmoregulation.

18 d in TgVP1 null mutants implicating TgVP1 in osmoregulation.

19 itro, underscoring the relevance of polyP in osmoregulation.

20 ypothesized that brevetoxins serve a role in osmoregulation.

21 diovascular regulation, kidney function, and osmoregulation.

22 ux, consistent with the role of prolactin in osmoregulation.

23 diovascular regulation; kidney function; and osmoregulation.

24 yonic lethality due to an apparent defect in osmoregulation.

25 logical roles in development, digestion, and osmoregulation.

26 imals, gravitropism in plants, and bacterial osmoregulation.

27 r optimal viability but does not function in osmoregulation.

28 on intracellular organelles, in this case in osmoregulation.

29 sults support the role of poly P in T. cruzi osmoregulation.

30 a functional role for aquaporin in protozoal osmoregulation.

31 and LWR2 affect multiple aspects of cellular osmoregulation.

32 l stimulation, such as in touch, hearing and osmoregulation.

33 rbitol or KCl, indicating that it has normal osmoregulation.

34 in the excretory cell, which is required for osmoregulation.

35 e regulation of genes that mediate secretion/osmoregulation.

36 SON and PVN, suggesting their involvement in osmoregulation.

37 test whether a common physiological process, osmoregulation,(3) could regulate growth in the sophisti

38 hepatic aldehyde reductases, and to maintain osmoregulation, a function of renal medullary genes, e.g

39 anes to mitigate ammonia toxicity and aid in osmoregulation, acid-base balance, and excretion have be

40 er, whether myo-inositol accumulation during osmoregulation affects signaling and excitability has no

41 ted a greater abundance of genes involved in osmoregulation, anaerobic respiration, UV resistance, ox

42 Kcnj1 is expressed in cells associated with osmoregulation and acts as a K+ efflux pathway that is i

43 ons of protozoan and metazoan cells, such as osmoregulation and cell motility.

44 ould contribute significantly to chloroplast osmoregulation and could protect photosynthetic processe

45 especially at the tips, suggesting a role in osmoregulation and defence.

46 rtebrate nephrons, play a key role in insect osmoregulation and detoxification.

47 relative abundances of genes associated with osmoregulation and dormancy, but lower relative abundanc

48 t the importance of the tegument in parasite osmoregulation and drug uptake.

49 somes and the contractile vacuole complex in osmoregulation and identify a functional role for aquapo

50 findings reveal a novel role of HNF-1beta in osmoregulation and identify multiple mechanisms, whereby

51 The SLC5A3 gene functions in cellular osmoregulation and is expressed in many human tissues in

52 genes related to growth, circadian rhythms, osmoregulation and oxygen binding in the different scena

53 cellular processes in eukaryotes, including osmoregulation and protein sorting.

54 family are expressed in tissues involved in osmoregulation and secretion in a number of species.

55 Even without drought, NSC depletion impaired osmoregulation and turgor maintenance, both of which are

56 espondingly, tor3- mutants showed defects in osmoregulation and were sensitive to starvation for gluc

57 ater K(+) retention in the cytosol, impaired osmoregulation, and compromised turgor generation for ce

58 Saccharomyces cerevisiae regulates mating, osmoregulation, and filamentous growth using three diffe

59 including those regulating root development, osmoregulation, and hormone signaling.

60 These channels are essential in osmoregulation, and in this setting, provide one of the

61 altered cell membrane components, inhibited osmoregulation, and increased oxidative stress.

62 hibit abnormal excretory function, defective osmoregulation, and lethality.

63 s, including hearing, touch, proprioception, osmoregulation, and morphogenesis.

64 rol of salt and fluid secretion, pH balance, osmoregulation, and other physiological activities that

65 ates in reabsorption of cerebrospinal fluid, osmoregulation, and regulation of brain edema.

66 ay function in seed desiccation, cytoplasmic osmoregulation, and/or seed rehydration.

67 In young, healthy women, the shift in osmoregulation appears to have only a minor effect on ov

68 ns of the genome containing genes related to osmoregulation are under selection in the study populati

69 ating may be indicative of AqpB functions in osmoregulation as well as cell motility of D. discoideum

70 Components of several osmoregulation-associated endocrine systems were affecte

71 ily diversified large family that fine-tunes osmoregulation but is likely to fulfill additional funct

72 r filling contractile vacuoles and actin for osmoregulation, but not to power water expulsion.

73 Arginine vasopressin (AVP) has a key role in osmoregulation by facilitating water transport in the co

74 different physiological responses including osmoregulation, cAMP levels and cellular morphogenesis.

75 g the implication of perturbed mitochondrial osmoregulation caused by LETM1 variants in neurological

76 hese results suggest that genes important in osmoregulation, cell membrane synthesis and integrity, a

77 by hypoosmotic stress, and that the site of osmoregulation coincides with the location of the energy

78 of what we know about the mechanisms of cell osmoregulation comes from in vitro two-dimensional (2D)

79 Together, our simulations suggest that osmoregulation could be mediated by changes in the ratio

80 This study suggests that osmoregulation could be of ubiquitous importance for pro

81 nsport to the SM, and likely plays a role in osmoregulation during legume/rhizobia symbioses.

82 In this organism, we have identified a new osmoregulation gene, osaC, encoding a member of a novel

83 play a key role in many functions including osmoregulation, growth, hearing, balance, and touch.

84 s suggest a critical role of cell-autonomous osmoregulation in adjusting the sperm cell shape for suc

85 g to investigate the genetic architecture of osmoregulation in Anopheles mosquitoes, vectors of human

86 is a histidine protein kinase important for osmoregulation in bacteria.

87 findings uncover a kinase cascade mediating osmoregulation in higher plants.

88 S and/or DOC interact with the CR to control osmoregulation in lampreys is still unknown.

89 rotein that has been known to play a role in osmoregulation in proteobacteria.

90 cose metabolism in human cells, and cellular osmoregulation in S. cerevisiae.

91 Osmoregulation in Saccharomyces cerevisiae involves a mu

92 emonstrate that WNK1, a kinase implicated in osmoregulation in the kidney, is required in T cells to

93 of the excretory cell, which is required for osmoregulation in the worm.

94 ow that the miR-8 family of miRNAs regulates osmoregulation in zebrafish embryos.

95 d thylakoid KEA3 transporters in chloroplast osmoregulation, integrity, and ion and pH homeostasis.

96 It is unknown whether and how osmoregulation is controlled by corticosteroid signaling

97 Osmoregulation is important for plant growth, developmen

98 We hypothesize that osmoregulation is needed for host cell invasion and that

99 Osmoregulation is one of the key homeostatic systems per

100 Surprisingly, however, we find that porin osmoregulation is open loop; i.e., the porin expression

101 arising from migration-associated changes in osmoregulation, locomotion, and gametogenesis, and (b) c

102 ss intracellular tubes (canals) that mediate osmoregulation, lumens grow in length and diameter when

103 present study was undertaken to clarify the osmoregulation mechanism of AQP1 in renal medullary cell

104 t Stk activates genes for virulence factors, osmoregulation, metabolism of alpha-glucans, and fatty a

105 onclusion, a partial or complete loss of AVP osmoregulation occurs in patients with SIAD.

106 Further studies correlate osmoregulation of IKin with the pattern of organization

107 Previous studies suggest that osmoregulation of motility, invasion and capsule express

108 of these results, the molecular mechanism of osmoregulation of ompF and ompC is discussed.

109 Osmoregulation of OmpF and OmpC production in cells cont

110 ductance (MscS) plays a critical role in the osmoregulation of prokaryotic cells.

111 ertebrates and reveal a function of PRL-L in osmoregulation of sea lamprey, comparable to a role of P

112 Osmoregulation of the mouse Cln3 mRNA level in kidney ce

113 In the absence of Hha and H-NS, however, osmoregulation of the rtsA promoter was lost, and Hil ac

114 ting any exsanguination and the breakdown of osmoregulation of this marine arthropod.

115 flows is here developed to explain different osmoregulation patterns across species.

116 mains unclear whether subtler alterations in osmoregulation performance are associated with outcome.

117 Reduced osmoregulation performance occurs frequently in kidney t

118 We further evaluated the association of osmoregulation performance with transplantation outcomes

119 test 3 months after transplant to determine osmoregulation performance.

120 um import systems play a fundamental role in osmoregulation, pH homeostasis and membrane potential in

121 ial for bacterial survival, playing roles in osmoregulation, pH homeostasis, regulation of protein sy

122 In this paper, we show that osmoregulation provides a much faster, label-free assess

123 een proposed to be functionally important in osmoregulation, providing an explanation for overlapping

124 However, the molecular mechanism of parasite osmoregulation remains unknown.

125 tching between hyper- (fresh water) and hypo-osmoregulation (seawater) remain mostly elusive.

126 The first class (osmoregulation, spore viability, and spore quiescence) r

127 dylinositol 3-kinase-an enzyme essential for osmoregulation that is a known target of solenopsins in

128 ugh the physiological effector mechanisms of osmoregulation that maintain plasma homeostasis in fresh

129 les on an internal organelle responsible for osmoregulation, the Dictyostelium discoideum contractile

130 o CV membranes and is required for efficient osmoregulation, the normal accumulation of CV membranes

131 coli, Tn10 tetracycline resistance and porin osmoregulation, the transcriptional outputs in individua

132 hat one CHX protein plays a critical role in osmoregulation through K+ fluxes and possibly pH modulat

133 ascade is an essential molecular pathway for osmoregulation, through its effect on transepithelial io

134 r results suggest that SjAQP plays a role in osmoregulation throughout the S. japonicum life cycle, e

135 nergetic costs of both food assimilation and osmoregulation to reduce predation risk by bull sharks.

136 te warming, to unravelling the mechanisms of osmoregulation under high salinities that may further in

137 ding the mobilization of glycogen for use in osmoregulation was studied with pulse-chase strategies u

138 To further asses the effects on osmoregulation, we challenged crabs with reduced salinit

139 es, have increased drought tolerance through osmoregulation, which allows for continuous, conservativ